CN208847386U - A kind of pulling force force measuring structure - Google Patents

Abstract

The utility model discloses a kind of pulling force force measuring structures, the dynamometer including the adjustable pedestal installed and setting on the base, are connected with simulation stressed member on the dynamometer.The simulation stressed member includes the linking arm and pulling force block for connecting the dynamometer, which simulates the part peripheral wall of magnet ring, and the resultant direction of the pulling force block stress is consistent with the direction for the power that the dynamometer is tested.The utility model structure is simple, it is easy installation fine tuning, simulate pulling force suffered by the abundant simulated winding of stressed member, test method is easily operated, can coiling pulling force on on-the-spot test board in due course, adjust in time, without changing complete machine structure, pulling force suffered by coiling can be quick and precisely measured, is conducive to quick and precisely adjust pulling force suffered by coiling, guarantees that the pulling force of coiling is stablized.

Description

A kind of pulling force force measuring structure

[technical field]

The utility model relates to a kind of pulling force force measuring structures, belong to magnet ring coiling auxiliary setting equipment technical field.

[background technique]

Oblique rubber tire wants specific to the pulling force of coiling on coil winding machine when magnet ring coiling, is pressed from both sides to oblique rubber tire mostly in the prior art The coiling linear type test held, and tiltedly rubber tire is usually to be wound on wire storage ring to the coiling of clamping, how much linear type test has Error will accurately test pulling force of coiling when on wire storage ring, and there is presently no specific pull test instrument.

[utility model content]

The utility model aim is to overcome deficiency in the prior art, and providing one kind being capable of rapid and accurate determination line class stress Pulling force force measuring structure, tensile test when suitable for line class coiling, especially disc type magnetic toroid winding machine coiling tensile test.

The utility model is achieved through the following technical solutions:

A kind of pulling force force measuring structure, it is characterised in that the survey of pedestal and setting including adjustable installation on the base Power meter is connected with simulation stressed member on the dynamometer.

A kind of pulling force force measuring structure as described above, it is characterised in that the simulation stressed member and the dynamometer are logical Cross connector connection.

A kind of pulling force force measuring structure as described above, it is characterised in that the simulation stressed member includes connecting the dynamometry The linking arm and pulling force block of meter.

A kind of pulling force force measuring structure as described above, it is characterised in that the part peripheral wall of the pulling force block simulation magnet ring, institute The resultant direction for the pulling force block stress stated is consistent with the direction for the power that the dynamometer is tested.

A kind of pulling force force measuring structure as described above, it is characterised in that the pedestal is adjustably fixed by link block With the relative position of tested coiling.

A kind of pulling force force measuring structure as described above, it is characterised in that the pedestal, which is equipped with, prevents the dynamometer from moving The locating part of position.

A kind of pulling force force measuring structure as described above, it is characterised in that installation position of the dynamometer on the pedestal It sets adjustable, adjusts direction and the installation and adjustment direction of the pedestal and intersect.

Compared with prior art, the utility model has the following advantages:

The utility model structure is simple, is easy installation fine tuning, simulates pulling force suffered by the abundant simulated winding of stressed member, test side Method is easily operated, can coiling pulling force on on-the-spot test board in due course, adjust in time, can be quick without changing complete machine structure Pulling force suffered by coiling accurately is measured, is conducive to quick and precisely adjust pulling force suffered by coiling, guarantees that the pulling force of coiling is stablized.

[Detailed description of the invention]

Fig. 1 is one of the utility model schematic perspective view；

Fig. 2 is the utility model configuration schematic diagram；

Fig. 3 is the two of the utility model schematic perspective view.

[specific embodiment]

The utility model is further described in detail with reference to the accompanying drawings of the specification:

As shown in Figure 1-3, a kind of pulling force force measuring structure, including the adjustable pedestal 1 installed and the survey being arranged on pedestal 1 Power meter 2 is connected with simulation stressed member 3 on dynamometer 2.The simulation stressed member 3 is connect with dynamometer 2 by connector 4.

Simulate the linking arm 31 and pulling force block 32 that stressed member 3 includes connection dynamometer 2.In magnet ring coiling tensile test, Pulling force block 32 simulates the part peripheral wall of magnet ring, axially inclined with linking arm 31, and linking arm 31 is U-shaped arm, with 32 shape of pulling force block It is hollow at frame-type, it passes through and is around on pulling force block 32 for coiling, the resultant direction of 32 stress of pulling force block and the Impact direction of dynamometer 2 Unanimously.

Preferably, pulling force block 32 and 31 joggle of linking arm are clamped, convenient for replacing different pulling force blocks for different magnet rings 32, so that the utility model scope of application is more extensive, while being also beneficial to damage replacement, without replacing complete machine, increase test Cost.

Preferably, by link block 5, adjustably the fixed relative position with tested coiling, link block 5 include connecting to pedestal 1 Connect the mounting blocks 51 on pedestal 1, mounting blocks 51 be fixed on spiro connecting piece 53 and bolt 52 on board, can by screwing or The installation site of 52 adjustment base 1 of release bolt, to adjust position of the simulation stressed member 3 with respect to coiling.

Preferably, pedestal 1 is equipped with the locating part 11 for preventing dynamometer 2 from shifting, and locating part 11 divides three parts, from dynamometer 2 three directions limit its displacement, and simulation stressed member 3 is connect from passing through between locating part 11 with dynamometer 2.Dynamometer 2 is the bottom of at Installation site on seat 1 is adjustable, adjusts direction and the installation and adjustment direction of pedestal 1 intersects.Further, pedestal 1 is equipped with Two slotted holes 12, dynamometry part 2 can be adjusted along its unrestricted direction far from or close to pedestal 1, it may be assumed that make to simulate stressed member It after 3 advance or retreats, to realize the position of fine tuning simulation stressed member 3.

The utility model is suitable for the forces testing of line class, is preferably applied to the forces testing of coiling, for example, in disc type around The position that simulation stressed member 3 is placed in wire storage ring upper sleeve through magnet ring is simulated magnet ring coiling, tests coiling pulling force by line machine.

When the utility model is used, in the force side of dynamometer 2 connection simulation stressed member 3；The fixation of dynamometer 2 is made to simulate Direction of pull suffered by stressed member 3 is consistent with the Impact direction of actual loading part；By coiling by practical manner be wound on simulation by It, can pulling force suffered by test simulation stressed member on power part 3.

In coiling pulling force on testing magnet ring, pulling force block 32 simulates the part peripheral wall of magnet ring, the Impact direction of pulling force block 32 It is tilted with the direction that dynamometer 2 is tested, the resultant direction of 32 stress of pulling force block is consistent with the direction that dynamometer 2 is tested.

When the utility model is applied to coiling pulling force suffered by wire storage ring upper magnetic ring on test disc type magnetic toroid winding machine, by dynamometry Meter 2 is mounted on pedestal 1, then pedestal 1 is mounted on disc type magnetic toroid winding machine and is placed on the working plate of wire storage ring, adjusts bolt 52 To the relative position of adjustment base 1 and coiling, the installation site of dynamometer 2 is adjusted, so that adjusting the position of pulling force block 32 makes Then position when it is in wire storage ring upper magnetic ring coiling starts coiling on pulling force block 32, test coiling pulling force, if pulling force closes It is suitable, test device is removed, coiling can be started, if pulling force is improper, then adjusts the clamped tensile force of coiling, is retested Pulling force is until suitable.

Claims (6)

1. a kind of pulling force force measuring structure, it is characterised in that: pedestal (1) and setting including adjustable installation are in the pedestal (1) On dynamometer (2), simulation stressed member (3) is connected on the dynamometer (2), the simulation stressed member (3) includes connecting Connect the linking arm (31) and pulling force block (32) of the dynamometer (2).

2. a kind of pulling force force measuring structure according to claim 1, it is characterised in that the simulation stressed member (3) with it is described Dynamometer (2) pass through connector (4) connect.

3. a kind of pulling force force measuring structure according to claim 1, it is characterised in that pulling force block (32) the simulation magnet ring The resultant direction of part peripheral wall, described pulling force block (32) stress is consistent with the direction of power that the dynamometer (2) is tested.

4. a kind of pulling force force measuring structure according to claim 1, it is characterised in that the pedestal (1) passes through link block (5) relative position with tested coiling is adjustably fixed.

5. a kind of pulling force force measuring structure according to claim 1, it is characterised in that the pedestal (1), which is equipped with, prevents institute State the locating part (11) of dynamometer (2) displacement.

6. a kind of pulling force force measuring structure according to claim 1, it is characterised in that the dynamometer (2) is in the pedestal (1) installation site on is adjustable, adjusts direction and the installation and adjustment direction of the pedestal (1) intersects.