CN211662029U - Goods shelves are deposited in transportation of integrated circuit board - Google Patents

Abstract

The utility model discloses a goods shelf for transferring and storing integrated circuit boards, which belongs to the field of circuit board production equipment and comprises a supporting underframe, an installation frame, a fixed bearing plate, a first sliding bearing plate, a second sliding bearing plate, an adjusting component, two isolating components and two telescopic components, wherein the installation frame is fixed on the top of the supporting underframe, the fixed bearing plate is fixedly connected with one side wall of the installation frame, the top of the supporting underframe is provided with two sliding edges which are symmetrically arranged, a side wall of the fixed bearing plate, two side walls of the first sliding bearing plate and a side wall of the second sliding bearing plate are respectively provided with a plurality of inserting grooves which are arranged at equal intervals, the bottom of the supporting underframe is provided with four self-locking universal wheels which are distributed in a rectangular shape, the utility model can achieve the aim of meeting the inserting and storing of circuit boards with different lengths or width sizes, and improve the overall, and the storage quantity is greatly increased, and the overall practicability is further improved.

Description

Goods shelves are deposited in transportation of integrated circuit board

Technical Field

The utility model belongs to the technical field of circuit board production facility and specifically relates to a goods shelves are deposited in transportation of integrated circuit board is related to.

Background

The circuit board is widely applied to electronic products and electronic equipment, when the circuit board is manufactured into a final product, various electronic components such as an integrated circuit, a transistor, a diode and the like can be arranged on the circuit board, and because most of the electronic components on the circuit board are compact elements, the anti-static turnover frame is required to be prevented from colliding and used in the storage and transfer processes of the circuit board. The size of current circuit board turnover frame is generally unadjustable, and this makes the turnover frame can only place the circuit board of a specification to the circuit board that has not satisfied the multiple model size difference of modernized enterprise stably transports and deposits the operation, and the practicality is relatively poor.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a goods shelves are deposited in transportation of integrated circuit board to solve among the prior art circuit board and deposit the in-process in the production transportation, can't stabilize the transportation according to the multiple model size difference of enterprise, the relatively poor technical problem of practicality.

The utility model provides a goods shelf for transferring and storing integrated circuit boards, which comprises a supporting underframe, an installation frame, a fixed bearing plate, a first sliding bearing plate, a second sliding bearing plate, an adjusting component, two isolating components and two telescopic components, wherein the installation frame is fixed on the top of the supporting underframe, the fixed bearing plate is fixedly connected with one side wall of the installation frame, the top of the supporting underframe is provided with two symmetrically arranged sliding edges, the first sliding bearing plate and the second sliding bearing plate are both arranged on the two sliding edges in a sliding way, the first sliding bearing plate is positioned between the fixed bearing plate and the second sliding bearing plate, a plurality of inserting grooves which are arranged at equal intervals are arranged on one side wall of the fixed bearing plate, two side walls of the first sliding bearing plate and one side wall of the second sliding bearing plate, the adjusting component is arranged on the supporting underframe, and the moving end of the adjusting component is fixedly connected with the first sliding bearing, two isolation components slide respectively and set up on the both sides wall of first slip loading board, and two flexible subassemblies symmetry are installed between first slip loading board and second slip loading board, and the bottom of supporting the chassis is equipped with four and is the self-locking universal wheel of rectangle distribution.

Preferably, the adjusting component comprises a fixed block, a threaded rotating shaft, a rotating handle and a moving block in threaded fit with the threaded rotating shaft, the moving block is fixedly connected with the middle of the bottom of the first sliding bearing plate, the fixed block is vertically installed at one end of the top of the supporting underframe, one end of the threaded rotating shaft is rotatably connected with the fixed block, and the other end of the threaded rotating shaft sequentially penetrates through the moving block, the fixed bearing plate and is fixedly connected with the rotating handle.

Preferably, each isolation component all includes sliding strip, fixed strip, locking part and two grafting racks, and the one end of sliding strip and a lateral wall fixed connection of grafting rack, the one end of fixed strip and a lateral wall fixed connection of another grafting rack, sliding strip and fixed strip grafting cooperation, locking part install on sliding strip and fixed strip, and every grafting rack all can be correspondingly slided and pegged graft in a plurality of inserting grooves.

Preferably, the locking part comprises a fastening bolt, a washer and a fastening nut, one end of the fastening bolt sequentially penetrates through the fixing strip, the sliding strip and is in locking fit with the fastening nut, the washer is sleeved on the fastening bolt and is located between one side wall of the fastening nut and the fixing strip, and the fixing strip and the sliding strip are both provided with adjusting mounting hole grooves.

Preferably, every the subassembly that stretches out and draws back all includes spacing axle, removes the axle and screws the mounting, and spacing axle is the level and sets up between first slip loading board and second slip loading board to the one end and the first slip loading board fixed connection of spacing axle, remove an axle slidable mounting at spacing epaxial and its one end and second slip loading board fixed connection, spacing epaxial threaded mounting hole that is equipped with a plurality of equidistant settings of its length direction of edge that is equipped with, the one end of the mounting of screwing run through spacing axle and with a threaded mounting hole screw-thread fit.

Compared with the prior art, the beneficial effects of the utility model reside in that:

(1) the rotating handle is manually rotated to drive the threaded rotating shaft fixedly connected with the rotating handle to rotate, so that the moving block in threaded fit with the threaded rotating shaft can move in the length direction of the rotating handle, the first sliding bearing plate fixedly connected with the moving block moves along with the moving block, and the operation of adjusting the distance between the fixed bearing plate and the first sliding bearing plate is achieved; secondly, the movable shaft is slidably mounted on the limiting shaft, so that the sliding length of the movable shaft on the limiting shaft can be freely adjusted according to requirements, then one end of a screwing fixing piece penetrates through the limiting shaft and is in threaded fit with a threaded mounting hole on the limiting shaft, the movable shaft and the limiting shaft are fixed together, one end of the limiting shaft is fixedly connected with the first sliding bearing plate, and one end of the movable shaft is fixedly connected with the second sliding bearing plate, so that the operation of adjusting the distance between the first sliding bearing plate and the second sliding bearing plate is achieved, two sides of the circuit board can be respectively inserted into the two insertion grooves by utilizing a plurality of equidistant insertion grooves formed in the first sliding bearing plate and the second sliding bearing plate, the purpose of inserting and storing circuit boards with different lengths or width sizes is further achieved, and the overall practicability is improved;

(2) include the sliding strip through the isolation subassembly, the fixed strip, locking part and two grafting racks, wherein, utilize two grafting racks respectively slidable mounting in a plurality of inserting grooves on fixed loading board and the first slip loading board, the sliding fit of sliding strip and fixed strip, when satisfying fixed loading board and the regulation of first slip loading board interval, the operation of two grafting rack intervals of synchronous regulation, afterwards, fastening bolt's one end can run through the fixed strip in proper order, the sliding strip just with fastening nut locking cooperation, accomplish both fixed operations of sliding strip and fixed strip, realize the fixed loading board, the separation operation of first slip loading board and the second slip loading board, satisfy depositing of multiple model size circuit board and transport simultaneously, can also greatly increased it deposits quantity, whole practicality has further been improved.

Drawings

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

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a side view of the present invention;

FIG. 3 is a partial three-dimensional structure diagram of the present invention;

FIG. 4 is a partially exploded perspective view of FIG. 3;

fig. 5 is a schematic perspective view of the isolation assembly of the present invention.

Reference numerals:

the self-locking universal wheel comprises a supporting chassis 1, a mounting frame 2, a fixed bearing plate 3, a first sliding bearing plate 4, a second sliding bearing plate 5, an adjusting assembly 6, a fixed block 61, a threaded rotating shaft 62, a rotating handle 63, a moving block 64, an isolating assembly 7, a sliding strip 71, a fixed strip 72, a locking component 73, a fastening bolt 731, a gasket 732, a fastening nut 733, an adjusting mounting hole 734, an inserting rack 74, a telescopic assembly 8, a limiting shaft 81, a moving shaft 82, a screwing fixing part 83, a threaded mounting hole 84, a sliding rib 9 and a self-locking universal wheel 10.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention.

The components of the embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element 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 invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 5, the present invention provides a storage rack for transporting an ic board, which comprises a supporting chassis 1, a mounting frame 2, a fixed bearing plate 3, a first sliding bearing plate 4, a second sliding bearing plate 5, an adjusting assembly 6, two isolating assemblies 7 and two telescopic assemblies 8, wherein the mounting frame 2 is fixed on the top of the supporting chassis 1, the fixed bearing plate 3 is fixedly connected with one side wall of the mounting frame 2, the top of the supporting chassis 1 is provided with two symmetrically arranged sliding ribs 9, the first sliding bearing plate 4 and the second sliding bearing plate 5 are both slidably arranged on the two sliding ribs 9, the first sliding bearing plate 4 is located between the fixed bearing plate 3 and the second sliding bearing plate 5, a plurality of equidistant insertion grooves are respectively arranged on one side wall of the fixed bearing plate 3, two side walls of the first sliding bearing plate 4 and one side wall of the second sliding bearing plate 5, the adjusting component 6 is installed on the supporting chassis 1, the moving end of the adjusting component is fixedly connected with the first sliding bearing plate 4, the two isolating components 7 are respectively arranged on two side walls of the first sliding bearing plate 4 in a sliding mode, the two telescopic components 8 are symmetrically installed between the first sliding bearing plate 4 and the second sliding bearing plate 5, and four self-locking universal wheels 10 which are distributed in a rectangular mode are arranged at the bottom of the supporting chassis 1.

Specifically, the adjusting assembly 6 comprises a fixed block 61, a threaded rotating shaft 62, a rotating handle 63 and a moving block 64 in threaded fit with the threaded rotating shaft 62, the moving block 64 is fixedly connected with the middle of the bottom of the first sliding bearing plate 4, the fixed block 61 is vertically installed on one end of the top of the supporting chassis 1, one end of the threaded rotating shaft 62 is rotatably connected with the fixed block 61, the other end of the threaded rotating shaft 62 sequentially penetrates through the moving block 64 and the fixed bearing plate 3 and is fixedly connected with the rotating handle 63, the threaded rotating shaft 62 fixedly connected with the manual rotating handle 63 is driven to rotate by manually rotating the rotating handle 63, so that the moving block 64 in threaded fit with the threaded rotating shaft 62 can move in the length direction, the first sliding bearing plate 4 fixedly connected with the moving block 64 moves along with the moving block, and the operation of adjusting the distance between the fixed bearing plate 3 and the first sliding bearing plate 4 is, by utilizing the plurality of equidistant insertion grooves arranged on the fixed bearing plate 3 and the first sliding bearing plate 4, two sides of the circuit board can be respectively inserted into the two insertion grooves, thereby achieving the purpose of inserting and storing circuit boards with different lengths or width sizes.

Specifically, each of the isolation assemblies 7 includes a sliding bar 71, a fixing bar 72, a locking member 73 and two insertion racks 74, one end of the sliding bar 71 is fixedly connected to a side wall of one of the insertion racks 74, one end of the fixing bar 72 is fixedly connected to a side wall of the other of the insertion racks 74, the sliding bar 71 is in insertion fit with the fixing bar 72, the locking member 73 is installed on the sliding bar 71 and the fixing bar 72, each of the insertion racks 74 can be correspondingly slidably inserted into a plurality of insertion slots, the two insertion racks 74 are respectively slidably installed in the plurality of insertion slots of the fixed bearing plate 3 and the first sliding bearing plate 4, and the sliding fit of the sliding bar 71 and the fixing bar 72 satisfies the gap adjustment between the fixed bearing plate 3 and the first sliding bearing plate 4, the two plug racks 74 are synchronously adjusted in distance, and then both the slide bar 71 and the fixing bar 72 can be stably fixed by the locking member 73.

Specifically, the locking component 73 includes a fastening bolt 731, a washer 732 and a fastening nut 733, one end of the fastening bolt 731 penetrates through the fixed bar 72 and the sliding bar 71 in sequence and is in locking fit with the fastening nut 733, the washer 732 is sleeved on the fastening bolt 731 and is located between the fastening nut 733 and one side wall of the fixed bar 72, the fixed bar 72 and the sliding bar 71 are both provided with adjusting installation holes 734, and one end of the fastening bolt 731 can penetrate through the fixed bar 72 and the sliding bar 71 in sequence and is in locking fit with the fastening nut 733, so that stable fixing operation of the sliding bar 71 and the fixed bar 72 is completed.

Specifically, each telescopic assembly 8 comprises a limiting shaft 81, a moving shaft 82 and a screwing fixture 83, the limiting shaft 81 is horizontally arranged between the first sliding bearing plate 4 and the second sliding bearing plate 5, one end of the limiting shaft 81 is fixedly connected with the first sliding bearing plate 4, the moving shaft 82 is slidably mounted on the limiting shaft 81, one end of the moving shaft 82 is fixedly connected with the second sliding bearing plate 5, a plurality of threaded mounting holes 84 are formed in the limiting shaft 81 at equal intervals along the length direction of the limiting shaft, one end of the screwing fixture 83 penetrates through the limiting shaft 81 and is in threaded fit with one threaded mounting hole 84, the moving shaft 82 is slidably mounted on the limiting shaft 81, so that the sliding length of the moving shaft 82 on the limiting shaft 81 can be freely adjusted according to requirements, and then one end of the screwing fixture 83 penetrates through the limiting shaft 81 and is in threaded fit with one threaded mounting hole 84 on the limiting shaft 81, realize removing both fixed of axle 82 and spacing axle 81, utilize the one end and the first 4 fixed connection that slide bearing board of spacing axle 81, the one end and the second of removing axle 82 slide bearing board 5 fixed connection, so reach the interval operation of adjusting between first slide bearing board 4 and the second slide bearing board 5, utilize a plurality of equidistant inserting grooves that set up on first slide bearing board 4 and the second slide bearing board 5, can make the both sides of circuit board peg graft respectively on two inserting grooves, thereby reach the purpose that the grafting of satisfying different length or width size circuit board was deposited.

The utility model discloses a theory of operation: the rotating handle 63 is manually rotated to drive the threaded rotating shaft 62 fixedly connected with the rotating handle to rotate, so that the moving block 64 in threaded fit with the threaded rotating shaft 62 can move in the length direction, the first sliding bearing plate 4 fixedly connected with the moving block 64 can move along with the moving block, and the operation of adjusting the distance between the fixed bearing plate 3 and the first sliding bearing plate 4 is achieved, and the purpose of inserting and storing circuit boards with different lengths or widths is preliminarily met by respectively inserting and connecting two sides of the circuit board on two inserting and connecting grooves by utilizing a plurality of equidistant inserting and connecting grooves formed in the fixed bearing plate 3 and the first sliding bearing plate 4; secondly, the moving shaft 82 is slidably mounted on the limiting shaft 81, so that the sliding length of the moving shaft 82 on the limiting shaft 81 can be freely adjusted according to requirements, then, one end of the screwing fixing part 83 penetrates through the limiting shaft 81 and is in threaded fit with a threaded mounting hole 84 on the limiting shaft 81, the fixing of the moving shaft 82 and the limiting shaft 81 is realized, one end of the limiting shaft 81 is fixedly connected with the first sliding bearing plate 4, and one end of the moving shaft 82 is fixedly connected with the second sliding bearing plate 5, so that the operation of adjusting the distance between the first sliding bearing plate 4 and the second sliding bearing plate 5 is realized, two sides of the circuit board can be respectively inserted in the two inserting grooves by using a plurality of equidistant inserting grooves arranged on the first sliding bearing plate 4 and the second sliding bearing plate 5, and the purpose of inserting and storing circuit boards with different lengths or width sizes is further achieved, the overall practicability is improved; by the spacer assembly 7 comprising a sliding bar 71, a fixing bar 72, a locking member 73 and two plugging racks 74, wherein, two inserting racks 74 are respectively slidably mounted in a plurality of inserting grooves on the fixed bearing plate 3 and the first sliding bearing plate 4, and the sliding fit between the sliding strip 71 and the fixed strip 72 satisfies the requirement of adjusting the distance between the fixed bearing plate 3 and the first sliding bearing plate 4, two grafting rack 74 interval operations of synchronous control, afterwards, fastening bolt 731's one end can run through fixed strip 72 in proper order, sliding strip 71 and with fastening nut 733 locking cooperation, accomplish both fixed operation of sliding strip 71 and fixed strip 72, the realization is to fixed loading board 3, the separation operation of first slip loading board 4 and second slip loading board 5, satisfy depositing of multiple model size circuit board and transport simultaneously, can also greatly increased it deposits quantity, whole practicality has further been improved.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (5)

1. The utility model provides a goods shelves are deposited in transportation of integrated circuit board which characterized in that: comprises a supporting chassis (1), an installation frame (2), a fixed bearing plate (3), a first sliding bearing plate (4), a second sliding bearing plate (5), an adjusting component (6), two isolating components (7) and two telescopic components (8), wherein the installation frame (2) is fixed on the top of the supporting chassis (1), the fixed bearing plate (3) is fixedly connected with one side wall of the installation frame (2), the top of the supporting chassis (1) is provided with two sliding edges (9) which are symmetrically arranged, the first sliding bearing plate (4) and the second sliding bearing plate (5) are both arranged on the two sliding edges (9) in a sliding manner, the first sliding bearing plate (4) is positioned between the fixed bearing plate (3) and the second sliding bearing plate (5), one side wall of the fixed bearing plate (3), one side wall of the first sliding bearing plate (4) and one side wall of the second sliding bearing plate (5) are both provided with a plurality of inserting grooves which are arranged at equal intervals, the adjusting component (6) is installed on the supporting chassis (1) and the moving end of the adjusting component is fixedly connected with the first sliding bearing plate (4), the two isolating components (7) are respectively arranged on two side walls of the first sliding bearing plate (4) in a sliding mode, the two telescopic components (8) are symmetrically installed between the first sliding bearing plate (4) and the second sliding bearing plate (5), and four self-locking universal wheels (10) which are distributed in a rectangular mode are arranged at the bottom of the supporting chassis (1).

2. The transfer storage rack for the integrated circuit boards according to claim 1, wherein: the adjusting assembly (6) comprises a fixing block (61), a thread rotating shaft (62), a rotating handle (63) and a moving block (64) in threaded fit with the thread rotating shaft (62), the moving block (64) is fixedly connected with the middle of the bottom of the first sliding bearing plate (4), the fixing block (61) is vertically installed at one end of the top of the supporting chassis (1), one end of the thread rotating shaft (62) is rotatably connected with the fixing block (61), and the other end of the thread rotating shaft (62) sequentially penetrates through the moving block (64), the fixing bearing plate (3) and the rotating handle (63) to be fixedly connected.

3. The transfer storage rack for the integrated circuit boards according to claim 2, wherein: each isolation assembly (7) comprises a sliding strip (71), a fixing strip (72), a locking component (73) and two inserting racks (74), one end of the sliding strip (71) is fixedly connected with one side wall of one inserting rack (74), one end of the fixing strip (72) is fixedly connected with one side wall of the other inserting rack (74), the sliding strip (71) is matched with the fixing strip (72) in an inserting mode, the locking component (73) is installed on the sliding strip (71) and the fixing strip (72), and each inserting rack (74) can be correspondingly slidably inserted into a plurality of inserting grooves.

4. The transfer storage rack for the integrated circuit boards according to claim 3, wherein: the locking component (73) comprises a fastening bolt (731), a washer (732) and a fastening nut (733), one end of the fastening bolt (731) sequentially penetrates through the fixing strip (72) and the sliding strip (71) and is in locking fit with the fastening nut (733), the washer (732) is sleeved on the fastening bolt (731) and is located between one side wall of the fastening nut (733) and one side wall of the fixing strip (72), and adjusting mounting holes (734) are formed in the fixing strip (72) and the sliding strip (71).

5. The transfer storage rack for the integrated circuit boards according to claim 1, wherein: every telescopic component (8) all include spacing axle (81), remove axle (82) and screw mounting (83), spacing axle (81) are the level and set up between first slip loading board (4) and second slip loading board (5), and the one end and first slip loading board (4) fixed connection of spacing axle (81), remove axle (82) slidable mounting on spacing axle (81) and its one end and second slip loading board (5) fixed connection, be equipped with a plurality of threaded mounting holes (84) that set up along its length direction equidistant on spacing axle (81), the one end of screwing mounting (83) runs through spacing axle (81) and with a threaded mounting hole (84) screw-thread fit.

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