CN209480484U - Unpowered flow production line - Google Patents

Abstract

The utility model discloses unpowered flow production line, including for carrying gravity carrier, be mounted on carrier bottom for flow production line to be mobile and multiple adjustable castors of positioning, two outside mounting structure being mounted at the top of carrier and middle part T-shaped structure part；Multiple rollers；Four block structures；Every two block structure is moveably mounted in an outside mounting structure, each block structure includes movable block, bar and T-block, T-block is slidably disposed in T-slot, the top of T-block and the bottom end of movable block connect, one end of bar and a side of movable block connect, and bar is vertical with outside mounting structure.The unpowered flow production line of the utility model: by the slidable adjustment in two block structures on the outside mounting structure, it can be avoided to shake, accurate processing and installation can be carried out to it to clamping is carried out before and after the power distribution cabinet on every series cylinder.

Description

Unpowered flow production line

Technical field

The utility model belongs to flow production line technical field, and in particular to unpowered flow production line.

Background technique

During electric utility cabinet body (power distribution cabinet) assembly, many enterprises use flow production line operation.These Flow production line is divided into dynamic (automatic advance) and unpowered (will not advance automatically).

Unpowered flow production line is waited when in use, is all the assembling and inspection for needing to carry out various power distribution cabinets on it, In the prior art for preventing power distribution cabinet from shaking, the device especially swayed forwards and backwards with production line mainly covers on roller Limiting card, but limiting card is waited in actual use, can only prevent the significantly shaking of power distribution cabinet, it can not be prevented slight Shaking, for the power distribution cabinet for needing to carry out accurate processing and installation still not enough.

We has developed unpowered flow production line in order to solve problem above.

Summary of the invention

The purpose of this utility model is that solve the above-mentioned problems and provides unpowered flow production line.

The utility model achieves the above object through the following technical schemes:

Unpowered flow production line, comprising:

For carrying the carrier of gravity；

It is mounted on multiple adjustable castors for flow production line movement and positioning of carrier bottom；

Two outside mounting structure and the middle part T-shaped structure part being mounted at the top of carrier；The installation of middle part T-shaped structure part Between two outside mounting structure, middle part T-shaped structure part and two outside mounting structure are arranged in parallel, and towards stream The transmission direction of aquatic producing line is installed；Outside mounting structure is internally provided with T-slot, and the notch of T-slot is coherent to be opened in An end face, top surface and the other end of outside mounting structure；

Multiple rollers；Multiple rollers are divided into two groups of settings, and two series cylinders are rotatably mounted on middle part T shape structure respectively Between the two sides of part and two outside mounting structure, multiple roller intervals in every series cylinder uniformly, be parallel to each other and roll Transmission direction of the direction towards flow production line；

Four block structures；Every two block structure is moveably mounted in an outside mounting structure, each card Keeping off structure includes movable block, bar and T-block, and T-block is slidably disposed in T-slot, the top of T type block and movable block Bottom end connection, a side of one end of bar and movable block connects, and bar is vertical with outside mounting structure.

The utility model has the beneficial effects that:

The unpowered flow production line of the utility model: pass through the sliding in two block structures on the outside mounting structure It adjusts, it can be avoided to shake to clamping is carried out before and after the power distribution cabinet on every series cylinder, it can be carried out accurately adding Work and installation.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the structural schematic diagram of block structure in the utility model；

Fig. 3 is a partial structure diagram in Fig. 1；

Fig. 4 is the mounting structure schematic diagram of T-block in the utility model；

Fig. 5 is the working state structure schematic diagram of magnetic structure in the utility model；

Fig. 6 is the structural schematic diagram of first rotating shaft in the utility model.

In figure: castor is adjusted in 1-；Mounting structure on the outside of 2-；21-T type groove；3- carrier；4- roller；5- block knot Structure；51- movable block；511- connecting rod；512- magnet；513- bulge-structure；514- first rotating shaft；The second shaft of 515-；52- gear Bar；53-T type block；T-shaped structure part in the middle part of 6-；7- anticollison block.

Specific embodiment

The utility model is described in further detail with reference to the accompanying drawing:

Embodiment 1, as shown in Figure 1, Figure 2, Figure 3, Figure 4,

Unpowered flow production line, comprising:

For carrying the carrier 3 of gravity；

It is mounted on multiple adjustable castors 1 for flow production line movement and positioning of 3 bottom of carrier；

It is mounted on two outside mounting structure 2 and middle part T-shaped structure part 6 at 3 top of carrier；Middle part T shape structural member 6 are mounted between two outside mounting structure 2, and middle part T-shaped structure part 6 and two outside mounting structure 2 are arranged in parallel, And it is installed towards the transmission direction of flow production line；Outside mounting structure 2 is internally provided with T-slot 21, the slot of T-slot 21 A coherent end face, top surface and the other end for being opened in outside mounting structure 2 of mouth；

Multiple rollers 4；Multiple rollers 4 are divided to for two groups of settings, and two series cylinders 4 are rotatably mounted on middle part T shape knot respectively The two sides of component 6 and two outside mounting structure 2 between, multiple rollers 4 in every series cylinder 4 be spaced uniformly, be parallel to each other, And rotating direction is towards the transmission direction of flow production line；

Four block structures 5；Every two block structure 5 is moveably mounted in an outside mounting structure 2, often A block structure 5 includes movable block 51, bar 52 and T-block 53, and T-block 53 is slidably disposed in T-slot 21, T-block 53 top is connect with the bottom end of movable block 51, and one end of bar 52 is connect with a side of movable block 51, bar 52 and outside Mounting structure 2 is vertical.

In a non-operative state, two block structures 5 respectively slide on two end faces of outside mounting structure 2, It will not influence power distribution cabinet and carry on roller 4；

In working condition, power distribution cabinet stops transmission on roller 4, and two block structures 5 are by T type block 53 in T at this time Sliding in type groove 21, the bar 52 of two block structures 5 distinguish the front and rear sides of clamping power distribution cabinet, can be realized and avoid its appearance It shakes, accurate processing and installation can be carried out to it.

The setting of multiple adjustable castors 1 makes production line removable, can also realize positioning, assembly positioning and move compared with For convenience.

Embodiment 2, as shown in Figure 1,

The present embodiment the difference from embodiment 1 is that: be provided with an anticollision at the both ends of every middle part T-shaped structure part 6 Block 7.The setting of anticollison block 7 avoids occurring hitting the deformed damaged for causing roller 4 in the moving process of production line.

Embodiment 3, as shown in Figure 1,

The present embodiment the difference from embodiment 1 is that: adjustable castor 1 includes universal wheel and the adjustable foot of level height Cup.

By footed glass, so that the adjustable height of production line is 30mm.When universal wheel lands, production line shifting can be push It is dynamic, and when footed glass lands, it can fix, and the conveniently adjusted horizontal or gradient.

Embodiment 4, as shown in Figure 5, Figure 6,

The present embodiment the difference from embodiment 1 is that: be provided with magnetic structure on each movable block 51, outside installation Structural member 2 is made of ferrimagnet, and the slot for storing magnetic structure, magnetic are provided on an end face of movable block 51 Structure includes connecting rod 511, magnet 512, bulge-structure 513, first rotating shaft 514, the second shaft 515, and the first of connecting rod 511 End and second end are fixedly installed first rotating shaft 514 and the second shaft 515 respectively, and slot accordingly is arranged in movable block 51 Side wall on be provided with the hole being inserted and rotated for first rotating shaft 514, setting is there are two bulge-structure on magnet 512 513, the hole being inserted and rotated for the second shaft 515 is provided on two bulge-structures 513.

Before the position of block structure 5 determines, entire magnetic structure is the slot for being contracted in an end face of movable block 51 Interior, slot is set as T-type, is mutually matched with the shape of magnetic structure, and it is nonferromugnetic material system that block structure 5 is most of At the sub-fraction only in slot is made of ferrimagnet, had both avoided magnetic structure in this way and has moved out under shake Slot, and avoid that the too tight of the suction of movable block 51 can not be extracted；Preferably, also after magnetic is received into slot, in slot also The deep space of enough hands is reserved, for easily plucking out magnetic structure；Further preferably also pacify in the side wall of magnet 512 Equipped with handle.

When the position of block structure 5 determines, magnet 512 is plucked out out of slot, the both ends of connecting rod 511 are rotating around shifting Motion block 51 and magnet 512 carry out adaptability rotation, the rotation of connecting rod 511, allow the plane and outside mounting structure of magnet 512 The top surface of part 2 carries out magnetic absorption, and at this time because movable block 51 not can be carried out and be displaced up and down, movable block 51 cannot be into Row moves forward and backward, and bar 52 is also immovable.In the case where two bars that cannot be displaced 52 clamp, power distribution cabinet is also immovable.This Be designed as can be with the magnetic for pulling out itself and outside mounting structure 2 of employment for the magnetic force of magnet 512 in utility model.

Embodiment 5, as shown in Figure 1 and Figure 5,

The present embodiment and the difference of embodiment 4 are: the length of magnet 512 is equal to the width of outside mounting structure 2.

Embodiment 6, as shown in Figure 1,

The present embodiment the difference from embodiment 1 is that: the length of bar 52 be equal to outside mounting structure 2 inside into The distance of portion's T-shaped structure part 6.Several adosculation in one end of the bar 52 in two outside mounting structure 2 are typically designed as, this The design of sample can be when the size of power distribution cabinet be larger, to matching after being combined with the bar 52 in two outside mounting structure 2 Electric cabinet carries out displacement limitation.

The basic principles and main features and advantage of the utility model have been shown and described above.The technical staff of the industry It should be appreciated that the present utility model is not limited to the above embodiments, the above embodiments and description only describe this The principle of utility model, on the premise of not departing from the spirit and scope of the utility model, the utility model also has various change And improvement, these various changes and improvements fall within the scope of the claimed invention.The utility model requires protection scope It is defined by appending claims and equivalents.

Claims (6)

1. unpowered flow production line characterized by comprising

For carrying the carrier of gravity；

It is mounted on multiple adjustable castors for flow production line movement and positioning of carrier bottom；

Two outside mounting structure and the middle part T-shaped structure part being mounted at the top of carrier；Middle part T-shaped structure part is mounted on two On the outside of root between mounting structure, middle part T-shaped structure part and two outside mounting structure are arranged in parallel, and raw towards flowing water The transmission direction of producing line is installed；Outside mounting structure is internally provided with T-slot, and the notch of T-slot is coherent to be opened in outside An end face, top surface and the other end of mounting structure；

Multiple rollers；Multiple rollers are divided into two groups of settings, and two series cylinders are rotatably mounted on the two of middle part T-shaped structure part respectively Between side and two outside mounting structure, multiple roller intervals in every series cylinder uniformly, be parallel to each other and rotating direction court To the transmission direction of flow production line；

Four block structures；Every two block structure is moveably mounted in an outside mounting structure, each block knot Structure includes movable block, bar and T-block, and T-block is slidably disposed in T-slot, the top of T-block and the bottom end of movable block Connection, one end of bar and a side of movable block connect, and bar is vertical with outside mounting structure.

2. unpowered flow production line according to claim 1, it is characterised in that: the two of every middle part T-shaped structure part End is provided with an anticollison block.

3. unpowered flow production line according to claim 1, it is characterised in that: adjustable castor includes universal wheel and water Equal height-adjustable footed glass.

4. unpowered flow production line according to claim 1, it is characterised in that: be provided with magnetic on each movable block Structure is inhaled, outside mounting structure is made of ferrimagnet, is provided on an end face of movable block for storing magnetic knot The slot of structure, magnetic structure include connecting rod, magnet, bulge-structure, first rotating shaft, the second shaft, the first end of connecting rod and Second end is fixedly installed first rotating shaft and the second shaft respectively, is accordingly arranged in movable block on the side wall of slot and is provided with For the hole that first rotating shaft is inserted and rotated, setting is respectively provided with there are two bulge-structure on two bulge-structures on magnet There is the hole being inserted and rotated for the second shaft.

5. unpowered flow production line according to claim 4, it is characterised in that: the length of magnet is equal to outside installation knot The width of component.

6. unpowered flow production line according to claim 1, it is characterised in that: the length of bar is equal to outside installation knot The distance of the inside of component to middle part T-shaped structure part.