CN219822043U - Combined jig frame structure - Google Patents

Abstract

The utility model relates to a combined type jig frame structure, in particular to the technical field of jig frames, which comprises a bottom frame and a side frame arranged on one side of the bottom frame, wherein the bottom frame comprises a plurality of parallel transverse telescopic rods and a plurality of parallel longitudinal telescopic rods, the transverse telescopic rods and the longitudinal telescopic rods are arranged in a staggered manner, the side frame comprises a plurality of parallel vertical telescopic rods, and the vertical telescopic rods are perpendicular to the plane of the bottom frame.

Description

Combined jig frame structure

Technical Field

The utility model relates to the technical field of jig frames, in particular to a combined jig frame structure.

Background

The jig frame can be used for placing various electromechanical devices, and the shape and the size of the devices to be stored are different, so that the design difference between different jig frames is large.

At present, in places such as laboratories, a suspended-type electromechanical integrated module is popular, a hydroelectric pipeline, an exhaust line, a network line and the like are integrated, the electromechanical module integrated into a whole is placed in a jig frame, and then the jig frame is hoisted to a required position for installation, so that indoor wiring can be completed.

The prior jig frame has a simple structure and is generally of a fixed structure, so the prior jig frame cannot be suitable for electromechanical modules with different specifications, and the prior jig frame is often required to be selected from jig frames with different sizes when the electromechanical modules with different specifications are installed, thus being more troublesome.

Disclosure of Invention

In order to enhance the applicability of the jig frame, the utility model provides a combined jig frame structure.

The utility model provides a combined jig frame structure which adopts the following technical scheme:

the utility model provides a combination formula bed-jig structure, includes the chassis and sets up in the side bearer of chassis one side, the chassis includes a plurality of parallel arrangement's horizontal telescopic link and a plurality of parallel arrangement's longitudinal telescopic link, horizontal telescopic link and longitudinal telescopic link crisscross setting, the side bearer includes a plurality of parallel arrangement's vertical telescopic link, vertical telescopic link is perpendicular with the plane at chassis place.

Through adopting above-mentioned technical scheme, the bed-jig can stretch out and draw back along length direction, width direction and direction of height respectively, is convenient for adjust the inside space size of bed-jig, therefore makes the bed-jig can be applicable to the electromechanical device of different specifications, and the suitability is stronger.

Optionally, the horizontal telescopic link includes first dead lever and along the length direction slip of first dead lever set up in the first movable rod at first dead lever both ends, first dead lever and first movable rod pass through bolt fixed connection.

Through adopting above-mentioned technical scheme, the length of bed-jig is convenient for adjust, and the installation and the dismantlement of the first dead lever of being convenient for and first movable rod.

Optionally, the vertical telescopic link includes second dead lever and slides along the length direction of second dead lever and set up in the second movable lever at second dead lever both ends, second dead lever and second movable lever pass through bolt fixed connection, are located the middle part the crisscross fixed connection of second dead lever and the first dead lever that is located the middle part, two that are located the middle part the second movable lever respectively with the two that are located the tip first dead lever fixed connection, the second dead lever that is located the tip with the first movable lever fixed connection that is located the middle part, two that are located the tip the second movable lever respectively with the two that are located the tip first movable lever fixed connection.

Through adopting above-mentioned technical scheme, the width of bed-jig is convenient for adjust, and the installation and the dismantlement of be convenient for second dead lever and second movable rod.

Optionally, the vertical telescopic link interval sets up in the outside edge of chassis, vertical telescopic link is perpendicular with the plane at chassis place, vertical telescopic link includes third dead lever and slides along the length direction of third dead lever and set up in the third movable rod at third dead lever both ends, third dead lever and third movable rod pass through bolt fixed connection, be close to third movable rod and chassis fixed connection of chassis one end.

Through adopting above-mentioned technical scheme, the high regulation of being convenient for of bed-jig, and the installation and the dismantlement of be convenient for third dead lever and third movable rod.

Optionally, keep away from be provided with the top frame on the third movable rod of chassis one end, the top frame is including horizontal pole and the longitudinal rod that can stretch out and draw back, horizontal pole and horizontal telescopic link are parallel, longitudinal rod and longitudinal telescopic link are parallel.

Through adopting above-mentioned technical scheme, the top frame is connected with all vertical telescopic links, helps reinforcing vertical telescopic link's stability for vertical telescopic link is difficult for empting, plays spacing and the effect of protection better.

Optionally, the horizontal pole includes fourth dead lever and slides along the length direction of fourth dead lever and set up in the fourth movable rod at fourth dead lever both ends, fourth dead lever and fourth movable rod pass through bolt fixed connection.

By adopting the technical scheme, the length of the top frame can be changed along with the change of the length of the transverse telescopic rod, so that the normal use of the top frame is ensured.

Optionally, the vertical pole includes fifth dead lever and slides along the length direction of fifth dead lever and set up in the fifth movable rod of fifth dead lever both ends, fifth dead lever and fifth movable rod pass through bolt fixed connection.

By adopting the technical scheme, the width of the top frame can be changed along with the change of the length of the longitudinal telescopic rod, so that the normal use of the top frame is ensured.

Optionally, the first fixed rod, the first movable rod, the second fixed rod and the second movable rod are hollow square tubes.

Through adopting above-mentioned technical scheme, the setting of side pipe makes first movable rod and second movable rod only can slide along respective length direction, and can't rotate, therefore the follow-up bolted connection of being convenient for.

Optionally, a hanging ring is arranged on the fourth movable rod.

Through adopting above-mentioned technical scheme, be convenient for hang the bed-jig, install the bed-jig on the roof.

In summary, the present utility model includes at least one of the following beneficial technical effects:

1. the jig frame can be lengthened or shortened along the length direction, the width direction and the height direction, so that the size of the internal space of the jig frame can be conveniently adjusted, the jig frame can be suitable for electromechanical modules of different specifications, the applicability is stronger, and the space utilization rate can be improved while the smooth installation of the electromechanical modules is ensured.

2. Each telescopic part of the jig frame is fixedly connected through bolts, so that the mounting and dismounting are simple and convenient, and after the mounting of the electromechanical module is completed, the jig frame is convenient to detach and rapidly take out, so that the jig frame is more convenient to use, and the working efficiency is improved.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present utility model;

fig. 2 is an enlarged schematic view at a in fig. 1.

Reference numerals: 1. a chassis; 11. a transverse telescopic rod; 111. a first fixing rod; 1111. a mounting hole; 1112. bolt holes; 112. a first movable lever; 12. a longitudinal telescopic rod; 121. a second fixing rod; 122. a second movable rod; 2. a side frame; 21. a vertical telescopic rod; 211. a third fixing rod; 212. a third movable lever; 3. a top frame; 31. a cross bar; 311. a fourth fixing rod; 312. a fourth movable lever; 32. a longitudinal bar; 321. a fifth fixing lever; 322. a fifth movable lever; 4. a hanging ring; 5. and (5) a bolt.

Detailed Description

The present utility model will be described in further detail with reference to the accompanying drawings.

The embodiment of the utility model discloses a combined jig frame structure. Referring to fig. 1, the device comprises a chassis 1 and a side frame 2 fixedly arranged at one side of the chassis 1, wherein the chassis 1 is approximately planar and mainly plays a role of supporting an electromechanical module; the length direction of the side frame 2 is perpendicular to the plane where the underframe 1 is located, the side frame 2 is arranged at the edge of the underframe 1 in a surrounding mode, and the side frame 2 mainly plays a role in limiting and protecting the electromechanical module. The underframe 1 comprises three or more parallel transverse telescopic rods 11 and three or more parallel longitudinal telescopic rods 12, wherein the transverse telescopic rods 11 and the longitudinal telescopic rods 12 are uniformly arranged, and the transverse telescopic rods 11 and the longitudinal telescopic rods 12 are vertically staggered. In this embodiment, four transverse telescopic rods 11 and four longitudinal telescopic rods 12 are provided, and are staggered to form a rectangular frame. The side frame 2 includes four or more vertical telescopic rods 21 arranged in parallel, in this embodiment, eight vertical telescopic rods 21 are provided, one each at four corners of the chassis 1, and two each at two sides of the chassis 1 in the length direction. Because chassis 1 and side bearer 2 homoenergetic are flexible, so the length, the width and the height of bed-jig are all convenient for adjust, consequently the size in the inside space that is used for placing electromechanical module of adjustable bed-jig for the bed-jig can be applicable to the electromechanical module of different specifications, and the suitability is stronger.

Referring to fig. 2, the lateral expansion link 11 includes a first fixing link 111 and first movable links 112 slidably disposed at both ends of the first fixing link 111 in a length direction of the first fixing link 111, and the first movable links 112 at both ends and both sides of the first fixing link 111 are fixedly coupled by bolts 5. Mounting holes 1111 are formed in both ends of the first fixed rod 111, a plurality of bolt holes 1112 are formed in one end, close to the first fixed rod 111, of the first movable rod 112, and the bolt holes 1112 are uniformly formed along the length direction of the first movable rod 112; the whole length of the transverse telescopic rod 11 can be adjusted by aligning different bolt holes 1112 with mounting holes 1111, and then the transverse telescopic rod is fixed by penetrating bolts 5. The length of the jig frame can be adjusted by adjusting the length of the transverse telescopic rod 11.

Referring to fig. 1, the longitudinal telescopic rod 12 includes a second fixing rod 121 and a second movable rod 122 slidably disposed at two ends of the second fixing rod 121 along a length direction of the second fixing rod 121, and the second fixing rod 121 and the second movable rod 122 are fixedly connected by a bolt 5, and a specific connection manner is the same as that of the first fixing rod 111 and the first movable rod 112, which is not described herein. The second fixing rod 121 positioned in the rectangular frame is welded and fixed with the first fixing rod 111 positioned in the rectangular frame, and the second movable rod 122 positioned in the rectangular frame is welded and fixed with the first fixing rod 111 at the corresponding edge; the second fixed rod 121 positioned at the edge of the rectangular frame is welded and fixed with the first movable rod 112 positioned in the rectangular frame, and the second movable rod 122 positioned at the edge of the rectangular frame is welded and fixed with the first movable rod 112 positioned at the corresponding edge. The width of the jig frame can be adjusted by adjusting the length of the longitudinal telescopic rod 12.

The vertical telescopic rod 21 includes a third fixing rod 211 and a third movable rod 212 slidably disposed at two ends of the third fixing rod 211 along a length direction of the third fixing rod 211, the third fixing rod 211 and the third movable rod 212 are fixedly connected through a bolt 5, and a specific connection mode is the same as that of the first fixing rod 111 and the first movable rod 112, which is not described herein, and an end of the third movable rod 212 close to one side of the chassis 1 is welded and fixed with the chassis 1. The height of the jig frame can be adjusted by adjusting the length of the vertical telescopic rod 21.

In order to enhance the stability of the vertical telescopic rod 21, a top frame 3 is welded to the end of the third movable rod 212 far away from the side of the bottom frame 1, and the top frame 3 includes a cross rod 31 and a longitudinal rod 32 which can be telescopic. The transverse rods 31 and the transverse telescopic rods 11 are parallel in direction and the same in length, and the longitudinal rods 32 and the longitudinal telescopic rods 12 are parallel in direction and the same in length. The cross bar 31 includes a fourth fixing rod 311 and a fourth movable rod 312 slidably disposed at both ends of the fourth fixing rod 311 along a length direction of the fourth fixing rod 311, and the fourth fixing rod 311 and the fourth movable rod 312 are fixedly connected by a bolt 5. The vertical rod 32 includes a fifth fixed rod 321 and a fifth movable rod 322 slidably disposed at two ends of the fifth fixed rod 321 along the length direction of the fifth fixed rod 321, where the fifth fixed rod 321 and the fifth movable rod 322 are fixedly connected by a bolt 5, and the specific connection manner is the same as that of the first fixed rod 111 and the first movable rod 112, and is not described here again

When the length of the transverse telescopic rod 11 is changed, the length of the cross rod 31 is correspondingly changed; when the length of the longitudinal telescopic rod 12 changes, the length of the longitudinal rod 32 correspondingly changes, so that the top frame 3 can be always connected with the vertical telescopic rods 21, all the vertical telescopic rods 21 are connected into a whole, the stability of the vertical telescopic rods 21 is enhanced, and the vertical telescopic rods 21 are not easy to incline or even topple over, so that the vertical telescopic rods 21 work better.

In order to make the locking process of the telescopic rod simpler and more convenient, in this embodiment, the first fixing rod 111, the first movable rod 112, the second fixing rod 121, the second movable rod 122, the third fixing rod 211, the third movable rod 212, the fourth fixing rod 311, the fourth movable rod 312, the fifth fixing rod 321 and the fifth movable rod 322 are all square tubes which are arranged in a hollow mode, relative rotation between the fixing rods and the movable rods cannot occur, the mounting holes 1111 and the bolt holes 1112 are aligned more easily, so that the bolts 5 can be penetrated conveniently, the quick connection of the bolts 5 and nuts is facilitated, and the locking process of the telescopic rod is completed.

The electromechanical module is generally required to be installed on the top plate, the electromechanical module is firstly placed in the jig frame during installation, then the jig frame is lifted to a corresponding installation position, and then the installation of the jig frame and the electromechanical module is completed; and after the electromechanical module is mounted on the top plate, the jig frame is taken out. In order to facilitate the lifting of the jig frame, the end part of the fourth movable rod 312, which is far away from one side of the vertical telescopic rod 21, is welded with a lifting ring 4, so that the lifting is more convenient.

The implementation principle of the combined jig frame structure provided by the embodiment of the utility model is as follows: the space inside the jig frame is matched with the electromechanical module to be installed by adjusting the lengths of the transverse telescopic rod 11, the longitudinal telescopic rod 12 and the vertical telescopic rod 21; then the electromechanical module is arranged in the jig frame, the jig frame is lifted to a required position by lifting equipment through lifting rings 4, and then the installation of the electromechanical module is completed; after the installation is finished, the bolts 5 are unscrewed, the jig frame is split into a plurality of rod pieces, the jig frame is taken out quickly, and the jig frame is reassembled to the required size when the jig frame is reused.

The above is a preferred embodiment of the present utility model, and is not intended to limit the scope of the present utility model in this way, therefore: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (9)

1. A combination formula bed-jig structure, its characterized in that: including chassis (1) and set up in side bearer (2) of chassis (1) one side, chassis (1) include a plurality of parallel arrangement's horizontal telescopic link (11) and a plurality of parallel arrangement's longitudinal extension pole (12), horizontal telescopic link (11) and longitudinal extension pole (12) are crisscross to be set up, side bearer (2) include a plurality of parallel arrangement's vertical telescopic link (21), vertical telescopic link (21) are perpendicular with the plane that chassis (1) is located.

2. A modular tire frame structure as in claim 1, wherein: the transverse telescopic rod (11) comprises a first fixed rod (111) and first movable rods (112) which are arranged at two ends of the first fixed rod (111) in a sliding mode along the length direction of the first fixed rod (111), and the first fixed rod (111) and the first movable rods (112) are fixedly connected through bolts (5).

3. A modular tire frame structure as in claim 2, wherein: the vertical telescopic rod (12) comprises a second fixed rod (121) and a second movable rod (122) which is arranged at two ends of the second fixed rod (121) in a sliding mode along the length direction of the second fixed rod (121), the second fixed rod (121) and the second movable rod (122) are fixedly connected through bolts (5), the second fixed rod (121) located in the middle is fixedly connected with the first fixed rod (111) located in the middle in a staggered mode, the two second movable rods (122) located in the middle are fixedly connected with the two first fixed rods (111) located at the end respectively, the second fixed rod (121) located at the end is fixedly connected with the first movable rod (112) located in the middle, and the two second movable rods (122) located at the end are fixedly connected with the two first movable rods (112) located at the end respectively.

4. A modular tire frame structure as in claim 1, wherein: the vertical telescopic rod (21) is arranged at the outer side edge of the underframe (1) at intervals, the vertical telescopic rod (21) comprises a third fixing rod (211) and a third movable rod (212) which is arranged at two ends of the third fixing rod (211) in a sliding mode along the length direction of the third fixing rod (211), the third fixing rod (211) and the third movable rod (212) are fixedly connected through bolts (5), and the third movable rod (212) which is close to one end of the underframe (1) is fixedly connected with the underframe (1).

5. A modular tire frame structure as in claim 4, wherein: keep away from be provided with top frame (3) on third movable rod (212) of chassis (1) one end, top frame (3) are including horizontal pole (31) and vertical pole (32) that can stretch out and draw back, horizontal pole (31) are parallel with horizontal telescopic link (11), vertical pole (32) are parallel with vertical telescopic link (12).

6. A modular tire frame structure as in claim 5, wherein: the cross rod (31) comprises a fourth fixed rod (311) and fourth movable rods (312) which are arranged at two ends of the fourth fixed rod (311) in a sliding mode along the length direction of the fourth fixed rod (311), and the fourth fixed rod (311) and the fourth movable rods (312) are fixedly connected through bolts (5).

7. A modular tire frame structure as in claim 5, wherein: the vertical rod (32) comprises a fifth fixed rod (321) and fifth movable rods (322) which are arranged at two ends of the fifth fixed rod (321) in a sliding mode along the length direction of the fifth fixed rod (321), and the fifth fixed rod (321) and the fifth movable rods (322) are fixedly connected through bolts (5).

8. A modular tire frame structure as in claim 3, wherein: the first fixed rod (111), the first movable rod (112), the second fixed rod (121) and the second movable rod (122) are hollow square tubes.

9. A modular tire frame structure as in claim 6, wherein: and a hanging ring (4) is arranged on the fourth movable rod (312).