CN220763254U - Positioning device for mounting hole of die heating unit - Google Patents

Abstract

The utility model relates to the technical field of wind generating set blades, and discloses a positioning device for a mounting hole of a die heating unit, which comprises a plurality of positioning components, wherein the positioning components can be mutually assembled, and the positioning components comprise: the connecting piece is provided with a positioning hole for positioning the mounting hole; the X-direction telescopic piece, two ends of the X-direction telescopic piece can be respectively and detachably connected with the connecting piece, and a plurality of X-direction adjusting holes for determining the telescopic length are formed in the X-direction telescopic piece at intervals; and one end of the Y-direction telescopic piece can be detachably connected with the connecting piece, the other end of the Y-direction telescopic piece is in sliding connection with the X-direction telescopic piece, and a plurality of Y-direction adjusting holes used for determining the telescopic length are formed in the Y-direction telescopic piece at intervals. The utility model can solve the problems of inaccurate positioning of the mounting hole for mounting the heating unit in the heating layer of the fan blade die, high operation difficulty and uneven heating of the heating layer in the prior art.

Description

Positioning device for mounting hole of die heating unit

Technical Field

The utility model relates to the technical field of wind generating set blades, in particular to a positioning device for a mounting hole of a die heating unit.

Background

Along with the great popularization of clean energy sources in China, the wind energy market is wide, the total installation amount of the wind driven generator in China is gradually increased, and therefore the manufacturing and production of the fan blade are imperative. The blade mould is one of important elements in the production process of the fan blade, so that the performance of the well-controlled fan mould is a key factor of the production of the fan blade.

The blade mould divide into polymer structural layer, zone of heating and steel structural layer, and the zone of heating is mainly used for the temperature control in the blade production process, and even heating is the key of production blade to the blade in the mould, and in order to make the zone of heating more even that is heated of zone of heating, need carry out the regional division to the zone of heating, then be used for installing heating unit's mounting hole to the different regions and carry out orderly the arranging, heating unit also can orderly distribute in the zone of heating like this to make the zone of heating more even.

The existing determination of the mounting holes is generally carried out by measuring and positioning by means of measuring tools such as a tape measure, namely the tape measure is used for measuring in sequence in the heating layer, and then the position needing to be perforated is marked, but the measurement accuracy is limited, the operation is troublesome, the deviation of positioning of the mounting holes is easy to occur, and the heating layer is heated unevenly.

Disclosure of Invention

The utility model aims to solve the problems that in the prior art, a mounting hole for mounting a heating unit in a fan blade die heating layer is inaccurate in positioning, troublesome in operation and uneven in heating of the heating layer are easy to cause.

In order to achieve the above object, the present utility model provides a positioning device for a mounting hole of a heating unit of a mold, comprising a plurality of positioning assemblies, wherein the plurality of positioning assemblies can be assembled with each other, and each positioning assembly comprises:

the connecting piece is provided with a positioning hole for positioning the mounting hole;

the X-direction telescopic piece, two ends of the X-direction telescopic piece can be respectively and detachably connected with the connecting piece, and a plurality of X-direction adjusting holes for determining the telescopic length are formed in the X-direction telescopic piece at intervals; and

one end of the Y-direction expansion piece can be detachably connected with the connecting piece, the other end of the Y-direction expansion piece is in sliding connection with the X-direction expansion piece, a plurality of Y-direction adjusting holes for determining expansion length are arranged on the Y-direction expansion piece at intervals,

when a plurality of locating components are assembled, one end of the Y-direction telescopic piece in one locating component and one end of the X-direction telescopic piece in the adjacent locating component are connected to the same connecting piece.

Preferably, the X-direction telescopic piece comprises an X-direction fixed rail and an X-direction adjusting plate capable of sliding along the length direction of the X-direction fixed rail, and the Y-direction telescopic piece comprises a Y-direction fixed rail and a Y-direction adjusting plate capable of sliding along the length direction of the Y-direction fixed rail;

one end of the Y-direction fixed rail or the Y-direction adjusting plate is connected with the X-direction fixed rail in a sliding way.

Preferably, the fixed rail and the adjusting plate are both bar-shaped, the fixed rail comprises a bottom plate, a top plate and side plates arranged between the bottom plate and the top plate, the top plate is provided with a bar-shaped slot in an extending mode, the top plate, the bottom plate and the two side plates together define a bar-shaped chute for the inserting of the adjusting plate, the bar-shaped slot is communicated with the bar-shaped chute, and the width of the bar-shaped slot is smaller than that of the bar-shaped chute.

Preferably, the Y is to fixed rail and Y to the regulating plate all be the bar, Y to fixed rail include bottom plate, roof and set up relatively in the bottom plate with curb plate between the roof, it has the bar fluting to extend on the roof, bottom plate and two the curb plate is prescribe a limit to together and supplies the Y is to the regulating plate inserts the bar spout of establishing, the bar fluting with bar spout intercommunication, just the bar grooved width of groove is less than the width of groove of bar spout.

Preferably, the X-direction fixing rail and the X-direction adjusting plate are mutually provided with a plurality of X-direction adjusting holes at intervals along the length direction, and the X-direction adjusting holes on the X-direction fixing rail are in one-to-one correspondence with the X-direction adjusting holes on the X-direction adjusting plate;

the Y-direction fixing rail and the Y-direction adjusting plate are mutually provided with a plurality of Y-direction adjusting holes along the length direction in a spaced mode, and the Y-direction adjusting holes on the Y-direction fixing rail correspond to the Y-direction adjusting holes on the Y-direction adjusting plate one by one.

Preferably, the positioning device of the die heating unit mounting hole further includes a fixing pin which can be selectively inserted into the X-direction adjusting hole or the Y-direction adjusting hole to fix the telescopic distance of the X-direction adjusting plate or the Y-direction adjusting plate.

Preferably, the positioning assembly further comprises a positioning sleeve sleeved on the X-direction fixed rail, the positioning sleeve can slide along the length direction of the X-direction fixed rail, and the Y-direction fixed rail or the Y-direction adjusting plate is connected with the positioning sleeve.

Preferably, the positioning sleeve is provided with a fixing hole, and the fixing pin can penetrate through the fixing hole to fix the telescopic distance of the X-direction adjusting plate.

Preferably, the X-direction expansion member and the Y-direction expansion member are connected to the connecting member through detachable connection structures, respectively, and the detachable connection structures include:

the inserting block is arranged on one of the X-direction telescopic piece, the Y-direction telescopic piece and the connecting piece;

the slot is matched with the inserting block and is arranged on the other one of the X-direction telescopic piece, the Y-direction telescopic piece and the connecting piece.

Preferably, the connecting piece is square, the positioning hole penetrates through the thickness direction of the connecting piece, the slot is arranged on at least two adjacent side surfaces of the connecting piece, one end of the slot is open, the other end of the slot is closed, and a section of notch of the slot, which is close to the closed end, is provided with a top wall;

the X is to the extensible member with the one end fixedly connected with connecting block of Y to the extensible member, the width of connecting block with the connecting piece is unanimous, the inserted block is L type, the tip of the horizontal part of inserted block with connecting block fixed connection, the vertical portion of inserted block is followed the length direction of connecting block extends, the vertical portion of inserted block can be passed through the opening of slot inserts in the slot and receive the restriction of roof.

Through above-mentioned technical scheme, with one of them connecting piece as the starting point, fixed this connecting piece and mark, then regard this connecting piece as the core, X is to the axis of telescoping member and Y to the telescoping member for axial composition location coordinate system, confirm X to the telescoping member and Y to the telescoping member flexible volume and then confirm the position of the connecting piece of other locating component through the regulation hole, confirm the position of mounting hole promptly, this application location is accurate, and can once only fix a plurality of mounting hole's of position, and is simple and convenient, single can accomplish positioning work.

Drawings

FIG. 1 is a schematic view of a positioning device for mounting holes of a mold heating unit according to an embodiment of the present utility model;

FIG. 2 is a schematic view of another embodiment of a positioning device for mounting holes of a mold heating unit according to the present utility model;

FIG. 3 is a schematic view of the structure of the X-direction fixed rail in FIG. 1;

FIG. 4 is a schematic view of the structure of the X-direction adjusting plate in FIG. 1;

FIG. 5 is a schematic view of the structure of the connector of FIG. 1;

FIG. 6 is a side view of the connector of FIG. 5;

FIG. 7 is a schematic view of the structure of one embodiment of the connection block of the present utility model;

fig. 8 is a schematic structural view of the fixing pin of fig. 1.

Description of the reference numerals

100. A positioning assembly; 200. a connecting piece; 210. positioning holes; 220. a slot; 300. an X-direction expansion piece; 310. an X-direction fixed rail; 311. a bottom plate; 312. a top plate; 313. a side plate; 314. a strip-shaped chute; 315. a strip-shaped groove; 320. an X-direction adjusting plate; 330. an X-direction adjusting hole; 400. y-direction telescopic parts; 410. y-direction fixed rail; 420. a Y-direction adjusting plate; 430. y-direction adjusting holes; 500. a connecting block; 510. inserting blocks; 600. a fixing pin; 700. a positioning sleeve; 710. and a fixing hole.

Detailed Description

The following describes embodiments of the present utility model in detail with reference to fig. 1-8. It should be understood that the detailed description and specific examples, while indicating and illustrating the utility model, are not intended to limit the utility model.

In the present utility model, unless otherwise indicated, directional terms such as "upper, lower, left, right, top, bottom" and the like are used to indicate directions or positional relationships based on those shown in the drawings for convenience of description and simplification of description only, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

As shown in fig. 1, the present application provides a positioning device for a mounting hole of a heating unit of a mold, including a plurality of positioning assemblies 100, the plurality of positioning assemblies 100 can be assembled with each other, and each positioning assembly 100 includes: the connecting piece 200 is provided with a positioning hole 210 for positioning the mounting hole; the X-direction telescopic piece 300, two ends of the X-direction telescopic piece 300 can be respectively and detachably connected with the connecting piece 200, and a plurality of X-direction adjusting holes 330 for determining the telescopic length are formed in the X-direction telescopic piece 300 at intervals; and the Y-direction telescopic member 400, one end of the Y-direction telescopic member 400 can be detachably connected with the connecting member 200, the other end of the Y-direction telescopic member 400 is slidably connected with the X-direction telescopic member 300, a plurality of Y-direction adjusting holes 430 for determining the telescopic length are formed in the Y-direction telescopic member 400 at intervals, and when a plurality of positioning assemblies 100 are assembled, one end of the Y-direction telescopic member 400 in one positioning assembly 100 and one end of the X-direction telescopic member 300 in the adjacent positioning assembly 100 are connected with the same connecting member 200.

Specifically, as shown in fig. 1, the connecting piece 200 of one positioning assembly 100 is used as a starting point, the connecting piece 200 is fixed and marked, then the connecting piece 200 is used as a core, the axes of the X-direction telescopic piece 300 and the Y-direction telescopic piece 400 are used as an axial composition positioning coordinate system, the X-direction telescopic piece 300 is the X-axis, the Y-direction telescopic piece 400 is the Y-axis, the telescopic amounts of the X-direction telescopic piece 300 and the Y-direction telescopic piece 400 are determined through the adjusting holes, namely, the distances between the connecting piece 200 on the X-direction telescopic piece 300 and other connecting pieces 200 on the Y-direction telescopic piece 400 from the starting point are adjusted, and then the positions of the other connecting pieces 200 are determined according to punching requirements. The positioning device shown in fig. 1 is formed by assembling two positioning assemblies 100, so that the device can determine the positions of 4 mounting holes at one time, the positioning device shown in fig. 2 is formed by assembling 4 positioning assemblies 100, so that the device can determine the positions of 6 mounting holes at one time, and so on, when the positioning device is formed by assembling more positioning assemblies 100, the corresponding positioning device can determine the positions of more mounting holes at one time. It should be noted that the positioning device in fig. 1 and fig. 2 is formed by assembling a plurality of positioning assemblies 100 along a single direction, but the positioning assemblies 100 can also be assembled along other directions, and the positioning device has a plurality of combinations, and is not limited to the assembling method in fig. 1 and fig. 2.

As shown in fig. 1, in some embodiments, the X-direction telescoping member 300 includes an X-direction fixed rail 310 and an X-direction adjustment plate 320 that is slidable along the length of the X-direction fixed rail 310, and the Y-direction telescoping member 400 includes a Y-direction fixed rail 410 and a Y-direction adjustment plate 420 that is slidable along the length of the Y-direction fixed rail 410; one end of the Y-direction fixed rail 410 or the Y-direction adjusting plate 420 is slidably connected to the X-direction fixed rail 310. Specifically, the X-distance from the starting point to the connector 200 on the X-direction adjusting plate 320 can be adjusted by sliding the X-direction adjusting plate 320 along the X-direction fixing rail 310, the Y-distance from the starting point to the connector 200 on the Y-direction telescopic member 400 can be adjusted by sliding the Y-direction adjusting plate 420 along the Y-direction fixing rail 410, and the X-distance from the starting point to the connector 200 on the Y-direction telescopic member 400 can be adjusted by sliding the Y-direction fixing rail 410 or the Y-direction adjusting plate 420 along the X-direction fixing rail 310.

As shown in fig. 3 and 4, in some embodiments, the X-direction fixing rail 310 and the X-direction adjusting plate 320 are both in a shape of a bar, the X-direction fixing rail 310 includes a bottom plate 311, a top plate 312, and side plates 313 disposed between the bottom plate 311 and the top plate 312, the top plate 312 extends with a bar slot 315, the top plate 312, the bottom plate 311, and the two side plates 313 together define a bar slot 314 into which the X-direction adjusting plate 320 is inserted, the bar slot 315 communicates with the bar slot 314, and the width of the bar slot 315 is smaller than that of the bar slot 314; the Y-direction fixed rail 410 is structurally identical to the X-direction fixed rail 310, and the Y-direction adjusting plate 420 is structurally identical to the Y-direction adjusting plate 420.

The Y-direction fixing rail 410 and the Y-direction adjusting plate 420 are both bar-shaped, the Y-direction fixing rail 410 comprises a bottom plate 311, a top plate 312 and side plates 313 oppositely arranged between the bottom plate 311 and the top plate 312, a bar-shaped slot 315 extends on the top plate 312, the bottom plate 311 and the two side plates 313 together define a bar-shaped slot 314 for inserting the Y-direction adjusting plate 420, the bar-shaped slot 315 is communicated with the bar-shaped slot 314, and the slot width of the bar-shaped slot 315 is smaller than that of the bar-shaped slot 314.

Since the slot width of the slot 315 is smaller than the slot width of the slot 314, when the X-direction adjusting plate 320 and/or the Y-direction adjusting plate 420 slide in the slot 314, the top plate 312 limits the movement of the X-direction adjusting plate 320 and/or the Y-direction adjusting plate 420 in the vertical direction, so as to prevent the X-direction adjusting plate and/or the Y-direction adjusting plate 420 from sliding out of the slot 314, which affects the positioning accuracy of the connector 200.

As shown in fig. 1, in some embodiments, a plurality of X-direction adjusting holes 330 are formed on the X-direction fixing rail 310 and the X-direction adjusting plate 320 at intervals along the length direction, and the X-direction adjusting holes 330 on the X-direction fixing rail 310 are in one-to-one correspondence with the X-direction adjusting holes 330 on the X-direction adjusting plate 320; the Y-direction fixing rail 410 and the Y-direction adjusting plate 420 are provided with a plurality of Y-direction adjusting holes 430 spaced apart from each other in the length direction, and the Y-direction adjusting holes 430 on the Y-direction fixing rail 410 correspond to the Y-direction adjusting holes 430 on the Y-direction adjusting plate 420 one by one. Since the X-direction adjusting holes 330 and the Y-direction adjusting holes 430 are formed at equal intervals, the distances between two adjacent adjusting holes are consistent, so that the adjusting holes have a measuring function, and the moving distance of the connecting member 200 in the X-direction and the Y-direction can be determined by the number of moving adjusting holes, so that the positions of the plurality of positioning holes 210 determined by the connecting member 200 can be uniformly distributed. In addition, the fixing rail and the adjusting plate are simultaneously provided with a plurality of adjusting holes, so that the distribution range of the connecting piece 200 in the X direction or the Y direction can be enlarged, namely, the adjustable range of the mounting holes is enlarged.

As shown in fig. 1 and 8, in some embodiments, the positioning device of the mold heating unit mounting hole further includes a fixing pin 600, and the fixing pin 600 can be selectively inserted into the X-direction adjustment hole 330 or the Y-direction adjustment hole 430 to fix the telescopic distance of the X-direction adjustment plate 320 or the Y-direction adjustment plate 420. After the sliding distance between the X-direction adjusting plate 320 and the Y-direction adjusting plate 420 is determined, that is, after the punching position of the mounting hole is determined, the fixing pin 600 can be inserted into the X-direction adjusting hole 330 and the Y-direction adjusting hole 430, the X-direction adjusting plate 320 is fixed to the X-direction fixing rail 310, and the Y-direction adjusting plate 420 is fixed to the Y-direction fixing rail 410, so that the X-direction adjusting plate 320 and the Y-direction adjusting plate 420 with the adjusted distance cannot slide, the displacement of the connecting piece 200 cannot be caused, and the positioning of the mounting hole can be more accurate.

As shown in fig. 1, in some embodiments, the positioning assembly 100 further includes a positioning sleeve 700 sleeved on the X-direction fixing rail 310, the positioning sleeve 700 can slide along the length direction of the X-direction fixing rail 310, and the Y-direction fixing rail 410 or the Y-direction adjusting plate 420 is connected with the positioning sleeve 700. When the Y-direction telescopic member 400 needs to be moved, the positioning sleeve 700 is moved, and a slide way for the Y-direction telescopic member 400 to slide is not required to be arranged on the X-direction fixed rail 310, so that the structure of the positioning device is simpler and more convenient to assemble and disassemble.

As shown in fig. 1, in some embodiments, the positioning sleeve 700 is provided with a fixing hole 710, and the fixing pin 600 can penetrate through the fixing hole 710 to fix the telescopic distance of the X-direction adjusting plate 320. Since the positioning sleeve 700 can control the movement of the Y-direction expansion element 400, after the position of the Y-direction expansion element 400 in the X-direction is determined, the position of the positioning sleeve 700, that is, the Y-direction expansion element 400, needs to be fixed using the fixing pin 600.

Specifically, taking the embodiment shown in fig. 1 as an example, the positioning assembly 100 located on the left side is called a first positioning assembly, the positioning assembly 100 located on the right side is called a second positioning assembly, one end of the Y-direction fixed rail 410 of the first positioning assembly, which is away from the Y-direction adjusting plate 420, is connected with the positioning sleeve 700 of the first positioning assembly, one end of the Y-direction adjusting plate 420 of the first positioning assembly, which is away from the Y-direction fixed rail 410, is connected with the connecting piece 200 at the end of the second positioning assembly X-direction fixed rail 310, while one end of the Y-direction fixed rail 410, which is away from the Y-direction adjusting plate 420, is connected with the connecting piece 200 at the end of the first positioning assembly X-direction adjusting plate 320, and one end of the second positioning assembly Y-direction adjusting plate 420, which is away from the Y-direction fixed rail 410, is connected with the positioning sleeve 700 of the second positioning assembly. The position of the connecting piece 200 at the end of the X-direction fixed rail 310 of the first positioning component can be determined by sliding the X-direction adjusting plate 320 of the first positioning component, then the Y-direction adjusting plate 420 of the first positioning component 100 and the Y-direction adjusting plate 420 of the second positioning component are slid simultaneously, then the positions of the other two connecting pieces 200 can be determined by sequentially sliding the positioning sleeve 700 of the first positioning component and the Y-direction adjusting plate 420 of the second positioning component, and after the positions are determined, the fixing pins 600 are used to penetrate into the adjusting holes and the fixing holes 710 respectively, and the positions are fixed. In the present embodiment, the Y-direction fixing rail 410 of the first positioning assembly and the Y-direction fixing rail 410 of the second positioning assembly are respectively connected with the positioning sleeve 700 and the connecting member 200, so as to facilitate the simultaneous and same-directional pulling of the Y-direction adjusting plates 420 of the two positioning assemblies 100, but the assembling modes of the X-direction telescopic members 300 and the Y-direction telescopic members 400 of any two adjacent positioning assemblies 100 can be adjusted according to the actual situation, and are not limited to the assembling modes of the foregoing embodiments.

As shown in fig. 5 and 7, in some embodiments, the X-direction telescoping member 300 and the Y-direction telescoping member 400 are connected to the connecting member 200 by a detachable connection structure, respectively, comprising: the insert block 510, the insert block 510 is arranged on one of the X-direction telescopic piece 300/Y-direction telescopic piece 400 and the connecting piece 200; the slot 220, the slot 220 is adapted to the plug and is disposed on the other of the X-direction telescopic member 300/Y-direction telescopic member 400 and the connecting member 200. Because positioner is assembled by a plurality of locating component 100, consequently the mode of pegging graft can be quick accomplish the assembly of a plurality of locating component 100, and convenient and swift also conveniently changes the mode of assembling between the locating component 100, makes positioner more suitable.

As shown in fig. 6 and 7, in some embodiments, the connector 200 is square, the positioning hole 210 is disposed through the thickness direction of the connection block 500, at least two adjacent sides of the connector 200 are provided with slots 220, one end of the slots 220 is open, the other end is closed, and a section of the slot 220 near the closed end has a top wall; the one end fixedly connected with connecting block 500 of X to extensible member 300 and Y to extensible member 400, the width of connecting block 500 is unanimous with connecting piece 200, and insert block 510 is L type, and the tip and the connecting block 500 fixed connection of the horizontal part of insert block 510, the vertical portion of insert block 510 extend along the length direction of connecting block 500, and the vertical portion of insert block 510 can insert in slot 220 and receive the restriction of roof through the opening of slot 220. Thus, after the plugging is completed, the connecting block 500 and the connecting piece 200 can be stably connected together, and the integrity between the fixed rail and the adjusting plate and the connecting piece 200 is stronger and more attractive.

The preferred embodiments of the present utility model have been described in detail above with reference to fig. 1-8, but the present utility model is not limited thereto. Within the scope of the technical idea of the utility model, a plurality of simple variants can be made to the technical proposal of the utility model, and in order to avoid unnecessary repetition, the utility model does not need to be additionally described for various possible combinations. Such simple variations and combinations are likewise to be regarded as being within the scope of the present disclosure.

Claims (10)

1. Positioning device for mounting holes of a die heating unit, comprising a plurality of positioning assemblies (100), wherein a plurality of positioning assemblies (100) can be mutually assembled, and each positioning assembly (100) comprises:

the connecting piece (200), the connecting piece (200) is provided with a positioning hole (210) for positioning the mounting hole;

the X-direction telescopic piece (300), two ends of the X-direction telescopic piece (300) can be respectively and detachably connected with the connecting piece (200), and a plurality of X-direction adjusting holes (330) for determining the telescopic length are formed in the X-direction telescopic piece (300) at intervals; and

one end of the Y-direction telescopic piece (400) can be detachably connected with the connecting piece (200), the other end of the Y-direction telescopic piece (400) is in sliding connection with the X-direction telescopic piece (300), a plurality of Y-direction adjusting holes (430) for determining the telescopic length are formed in the Y-direction telescopic piece (400) at intervals,

when a plurality of positioning assemblies (100) are assembled, one end of a Y-direction telescopic piece (400) in one positioning assembly (100) and one end of an X-direction telescopic piece (300) in the adjacent positioning assembly (100) are connected to the same connecting piece (200).

2. The positioning device of a die heating unit mounting hole according to claim 1, wherein the X-direction telescoping member (300) includes an X-direction fixed rail (310) and an X-direction adjusting plate (320) slidable along a length direction of the X-direction fixed rail (310), and the Y-direction telescoping member (400) includes a Y-direction fixed rail (410) and a Y-direction adjusting plate (420) slidable along the length direction of the Y-direction fixed rail (410);

one end of the Y-direction fixed rail (410) or the Y-direction adjusting plate (420) is connected with the X-direction fixed rail (310) in a sliding way.

3. The positioning device for a mounting hole of a mold heating unit according to claim 2, wherein the X-direction fixing rail (310) and the X-direction adjusting plate (320) are both in a shape of a bar, the X-direction fixing rail (310) comprises a bottom plate (311), a top plate (312) and two side plates (313) oppositely arranged between the bottom plate (311) and the top plate (312), a bar slot (315) extends on the top plate (312), the bottom plate (311) and the two side plates (313) together define a bar slot (314) for the X-direction adjusting plate (320) to insert, the bar slot (315) is communicated with the bar slot (314), and the slot width of the bar slot (315) is smaller than that of the bar slot (314).

4. The positioning device for a mounting hole of a mold heating unit according to claim 2, wherein the Y-direction fixing rail (410) and the Y-direction adjusting plate (420) are both in a shape of a bar, the Y-direction fixing rail (410) comprises a bottom plate (311), a top plate (312) and two side plates (313) oppositely arranged between the bottom plate (311) and the top plate (312), a bar slot (315) extends on the top plate (312), the bottom plate (311) and the two side plates (313) together define a bar-shaped chute (314) for inserting the Y-direction adjusting plate (420), the bar-shaped slot (315) is communicated with the bar-shaped chute (314), and the slot width of the bar-shaped slot (315) is smaller than that of the bar-shaped chute (314).

5. The positioning device for the mounting hole of the die heating unit according to claim 2, wherein a plurality of X-direction adjusting holes (330) are formed on the X-direction fixing rail (310) and the X-direction adjusting plate (320) at intervals along the length direction, and the X-direction adjusting holes (330) on the X-direction fixing rail (310) are in one-to-one correspondence with the X-direction adjusting holes (330) on the X-direction adjusting plate (320);

the Y-direction fixing rail (410) and the Y-direction adjusting plate (420) are mutually spaced along the length direction and are provided with a plurality of Y-direction adjusting holes (430), and the Y-direction adjusting holes (430) on the Y-direction fixing rail (410) are in one-to-one correspondence with the Y-direction adjusting holes (430) on the Y-direction adjusting plate (420).

6. The positioning device of a die heating unit mounting hole according to claim 5, further comprising a fixing pin (600), the fixing pin (600) being selectively insertable into the X-direction adjustment hole (330) or the Y-direction adjustment hole (430) to fix a telescopic distance of the X-direction adjustment plate (320) or the Y-direction adjustment plate (420).

7. The positioning device of a die heating unit mounting hole according to claim 6, wherein the positioning assembly (100) further comprises a positioning sleeve (700) sleeved on the X-direction fixing rail (310), the positioning sleeve (700) can slide along the length direction of the X-direction fixing rail (310), and the Y-direction fixing rail (410) or the Y-direction adjusting plate (420) is connected with the positioning sleeve (700).

8. The positioning device for the mounting hole of the mold heating unit according to claim 7, wherein a fixing hole (710) is formed in the positioning sleeve (700), and the fixing pin (600) can penetrate through the fixing hole (710) to fix the telescopic distance of the X-direction adjusting plate (320).

9. Positioning device for mounting holes of a heating unit for a mold according to any one of claims 1 to 8, characterized in that said X-direction expansion member (300) and said Y-direction expansion member (400) are connected to said connecting member (200) by means of a detachable connection structure, respectively, comprising:

an insert block (510), the insert block (510) being provided on one of the X-direction telescoping member (300)/the Y-direction telescoping member (400) and the connecting member (200);

the slot (220) is matched with the plug block and is arranged on the other of the X-direction telescopic piece (300)/the Y-direction telescopic piece (400) and the connecting piece (200).

10. The positioning device for the mounting hole of the mold heating unit according to claim 9, wherein the connecting member (200) is square, the positioning hole (210) is provided through the thickness direction of the connecting member (200), the slots (220) are provided on at least two adjacent sides of the connecting member (200), one end of the slots (220) is open, the other end is closed, and a section of the slot (220) close to the closed end has a top wall;

the X is to connecting block (500) to the one end fixedly connected with of extensible member (300) with Y is to extensible member (400), the width of connecting block (500) with connecting piece (200) unanimous, insert piece (510) are L type, the tip of the horizontal part of insert piece (510) with connecting block (500) fixed connection, the vertical portion of insert piece (510) is followed the length direction of connecting block (500) extends, the vertical portion of insert piece (510) can be passed through the opening of slot (220) inserts in slot (220) and receive the restriction of roof.