CN217935401U - Small micro motor driving torque inspection jig - Google Patents

Abstract

The utility model relates to a small micro motor driving torque checking jig; the clamping device comprises a bottom plate, wherein a first clamping mechanism and a second clamping mechanism are arranged above the bottom plate, the second clamping mechanism is fixed on the bottom plate through a Y-axis moving mechanism, the first clamping mechanism is connected with a Z-axis adjusting mechanism, and the Z-axis adjusting mechanism is fixed on the Y-axis moving mechanism; the tension meter clamping device is characterized by also comprising a fixed plate and a tension meter moving plate which are respectively arranged at two sides of the second clamping mechanism, wherein the fixed plate is fixed on the bottom plate through the first longitudinal adjusting mechanism, the tension meter moving plate is fixed on the X-axis moving plate through the second longitudinal adjusting mechanism, and the X-axis moving plate is fixed on the bottom plate through the X-axis adjusting mechanism; the fixed plate and the tension meter moving plate are both provided with through holes, tension meters are respectively arranged on the through holes of the fixed plate and the tension meter moving plate in a penetrating mode, the rope wheel is further provided, a rope is wound on the rope wheel, one end of the rope is connected with the tension meter fixed on the fixed plate, and the other end of the rope is connected with the tension meter fixed on the tension meter moving plate.

Description

Small micro motor driving torque inspection jig

Technical Field

The utility model belongs to the technical field of motor detection tool and specifically relates to a little micro motor drive torque inspection smelting tool is related to.

Background

The video conference and the video monitoring equipment have the functions of horizontal and vertical dimension real-time steering motion. The rotation angle accuracy requirement of each level of standard specification to its motion process in level and two vertical directions is quite high (including but not limited to noise control, energy consumption and efficiency etc. aspect), and rotatory module can accurate location and require to respond rapidly under the work load condition, can have a good experience to establish the basis for the user in the use.

In the reproduction process of video conferences and video monitoring equipment, the assembly and the test of the motor driving module are often not in the same procedure. The motor driving module can not be directly electrified in the assembling process, so that assembling personnel can not know the real-time state and the quality condition of the motor driving module in time. When the motor drive module circulation is to producing line equipment production link, on the complete machine test rediscovery motor drive module drive power, noise, condition such as efficiency not up to standard, not smooth in order, then need demolish other modules, cable and spare part, waste time and energy, increase production line workman intensity of labour, influence output efficiency.

The traditional motor torque measuring method mainly comprises a dynamometer, a hanging weight and a torsion meter testing method, and although the three methods can provide motor driving force testing data, the dynamometer is high in purchase cost, large in size and high in later-period use and maintenance cost. The operation of hanging the weight and the torsion meter is complicated, the detection efficiency is low, and the detection precision cannot be guaranteed.

Therefore, the utility model discloses to above-mentioned problem the utility model discloses urgent need provides a little micromotor drive torque inspection smelting tool.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a little micro motor drive moment inspection smelting tool, structural design through little micro motor drive moment inspection smelting tool is expensive in order to solve the little micro motor drive moment equipment of measurement that exists among the prior art, and the operation is comparatively loaded down with trivial details complicated, and detection efficiency is lower to detect the technical problem that the precision can not obtain the guarantee.

The utility model provides a little micromotor drive moment inspection smelting tool, including the bottom plate, be equipped with first fixture and second fixture that are used for the centre gripping motor above the bottom plate, the second fixture is fixed in on the bottom plate through Y axial moving mechanism, first fixture is connected with Z axial adjustment mechanism, Z axial adjustment mechanism is fixed in on Y axial moving mechanism;

the tension meter clamping device is characterized by further comprising a fixed plate and a tension meter moving plate which are respectively arranged on two sides of the second clamping mechanism, wherein the fixed plate is fixed on the bottom plate through the first longitudinal adjusting mechanism, the tension meter moving plate is fixed on the X-axis moving plate through the second longitudinal adjusting mechanism, and the X-axis moving plate is fixed on the bottom plate through the X-axis adjusting mechanism;

the tension meter fixing device comprises a fixed plate, a tension meter moving plate, a motor, a rope wheel, a rope, a tension meter and a motor, wherein the fixed plate and the tension meter moving plate are both provided with through holes for the penetration of the tension meter, the tension meter is respectively penetrated and installed in the through holes of the fixed plate and the tension meter moving plate, the rope wheel is used for being connected with the motor, one end of the rope is connected with the tension meter fixed on the fixed plate, and the other end of the rope is connected with the tension meter fixed on the tension meter moving plate.

Preferably, the second clamping mechanism comprises a lower connecting plate, a lower clamping plate extending upwards is arranged on the lower connecting plate, a plurality of lower grooves are distributed at intervals along the length of the top of the lower clamping plate, and the lower connecting plate is fixedly connected with the Y-axis moving mechanism;

the first clamping mechanism comprises an upper connecting plate, an upper clamping plate extending downwards is arranged on the upper connecting plate, upper grooves which are in one-to-one correspondence with the lower grooves are formed in the lower bottom surface of the upper clamping plate, and the upper connecting plate is connected with the Z-axis adjusting mechanism.

Preferably, the first longitudinal adjusting mechanism comprises a first vertical plate, a first long hole is formed in the first vertical plate along the length of the first vertical plate, a first positioning screw rod penetrates through the first long hole, a first connecting hole penetrating correspondingly to the first positioning screw rod is formed in the fixing plate, and the first vertical plate is detachably connected with the side end of the bottom plate;

the second longitudinal adjusting mechanism comprises a second vertical plate, a second long hole is formed in the second vertical plate along the length, a second positioning screw rod penetrates through the second long hole, a second connecting hole penetrating correspondingly to the second positioning screw rod is formed in the tension meter moving plate, and the second vertical plate is detachably connected with the X-axis moving plate.

Preferably, the outer edge of the lower plate surface of the bottom plate is provided with support legs at intervals along the circumference.

Preferably, the Y-axis moving mechanism comprises a Y-axis moving plate positioned between the fixed plate and the tension meter moving plate, the rear end of the Y-axis moving plate is detachably connected with the Y-axis moving screw, and one end of the Y-axis moving screw extends out of the bottom plate to be connected with the Y-axis moving handle;

the bottom plate is provided with a Y axial moving long hole corresponding to the Y axial moving plate, the bottom of the Y axial moving plate is provided with a Y axial moving plate positioning hole corresponding to the Y axial moving long hole, and a Y axial moving plate fixing screw penetrates through the Y axial moving long hole to be fixed with the Y axial moving plate positioning hole in a threaded connection mode.

Preferably, the device also comprises a Y axial moving screw positioning plate penetrated by the Y axial moving screw, and the Y axial moving screw positioning plate is detachably connected with the bottom plate.

Preferably, a T-shaped embedded groove is formed in the top of the Y-axis moving plate, and a connecting sleeve matched with the T-shaped embedded groove is arranged at one end of the Y-axis moving screw.

Preferably, the Z-axis adjusting mechanism comprises a Z-axis lead screw arranged along the Z-axis direction, the bottom of the Z-axis lead screw is connected with the Y-axis moving plate through a shaft sleeve, the top of the Z-axis lead screw penetrates through the first clamping mechanism and the upper top plate to be connected with the Z-axis rotating handle, Z-axis positioning rods are arranged on two sides of the Z-axis lead screw, the bottom of each Z-axis positioning rod is fixedly connected with the Y-axis moving plate, the top of each Z-axis positioning rod is fixedly connected with the upper top plate, the Z-axis moving plate is positioned between the upper top plate and the Y-axis moving plate, the Z-axis lead screw and each Z-axis positioning rod are correspondingly penetrated with the Z-axis moving plate, and the first clamping mechanism is fixedly connected with the Z-axis moving plate.

Preferably, the X axial adjusting mechanism comprises an X axial adjusting screw rod which is arranged below the X axial moving plate along the X axial direction, one end of the X axial adjusting screw rod is connected with the first X axial positioning plate through a shaft sleeve, the other end of the X axial adjusting screw rod penetrates through the second X axial positioning plate to be connected with the X axial adjusting handle, and the first X axial positioning plate and the second X axial positioning plate are both fixed on the bottom plate; the X axial adjusting screw rod is provided with an X axial moving block in a penetrating manner, and further comprises X axial positioning rods which are respectively arranged on two sides of the X axial adjusting screw rod, each X axial positioning rod is arranged in the X axial moving block in a penetrating manner, and two ends of each X axial positioning rod are fixedly connected with a corresponding first X axial positioning plate and a corresponding second X axial positioning plate respectively; the X-axis moving plate is detachably connected with the X-axis moving block.

Preferably, the X-axis moving block is provided with an adjusting long hole along the Y-axis direction, the X-axis moving block is provided with an X-axis moving block positioning hole corresponding to the adjusting long hole, and the positioning rod penetrates through the adjusting long hole and is fixedly connected with the X-axis moving block positioning hole;

the tension meter moving plate comprises a first moving plate and a second moving plate; the first moving plate and the second moving plate are respectively fixed at the left end and the right end of the X-axis moving plate, and the bottoms of the first moving plate and the second moving plate are respectively detachably connected with the X-axis moving plate.

The utility model provides a pair of a detection tool for measuring little micro motor compares with prior art and has following progress:

1. the utility model provides a small micro motor driving torque inspection smelting tool, the first clamping mechanism and the second clamping mechanism are folded up and down, and the small micro motor can be clamped and fixed; the second clamping mechanism is fixed on the bottom plate through a Y-axis moving mechanism, the Y-axis moving mechanism can be adjusted along the Y-axis direction, and the second clamping mechanism is fixed on the bottom plate after being adjusted to a specified position; the first clamping mechanism is connected with the Z-axis adjusting mechanism, the Z-axis adjusting mechanism is fixed on the Y-axis moving mechanism, the height of the first clamping mechanism in the Z-axis direction can be adjusted through the Z-axis adjusting mechanism, and the small micro motor can be conveniently fixed and clamped. The fixed plate and the tension meter moving plate can realize the fixation of two tension meters and are fixed on the X axial moving plate through the second longitudinal adjusting mechanism, the X axial moving plate is fixed on the bottom plate through the X axial adjusting mechanism, the movement of the tension meters on the tension meter moving plate can be realized, the height adjustment of the fixed plate and the tension meter moving plate in the Z axial direction can be realized through the design of the first longitudinal adjusting mechanism and the second longitudinal adjusting mechanism, the tension meters and the small micro motor to be detected are positioned on the same axis, the rope wheel is sleeved on the small micro motor, a rope is wound on the rope wheel, one end of the rope is connected with the tension meter fixed on the fixed plate, the other end of the rope is connected with the tension meter fixed on the tension meter moving plate, and the measurement of the motor driving moment of the small micro motor is realized through the tension meter moving plate. The small micro motor driving torque inspection jig is simple in structure and convenient to detach and install, and can solve the problems that a test instrument is large in size, high in cost, low in detection efficiency, inaccurate in detection data and the like on the premise that the requirement of product test accuracy is met.

2. The utility model provides a small micromotor drive moment inspection smelting tool, it is small, light in weight still does not have the burden and feels even long-distance travelling.

3. The utility model provides a little micromotor drive moment inspection smelting tool, easy operation even pupil also can be from the leisurely reply, light measurement.

4. The utility model provides a small micromotor drive torque inspection smelting tool, including a lower connecting plate through a second clamping mechanism, wherein the lower connecting plate is provided with a lower clamping plate extending upwards, a plurality of lower grooves are distributed at intervals along the length on the top of the lower clamping plate, and the lower connecting plate is fixedly connected with a Y-axis moving mechanism; first fixture includes the upper junction plate, is equipped with downwardly extending upper plate on the upper junction plate, is equipped with the upper groove with the low groove involution one by one on the bottom surface under the upper plate, the structural design that upper junction plate and Z axial adjustment mechanism are connected, simple structure makes things convenient for little micro motor's fixed, easy to assemble and dismantlement, portable.

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 structural view (left perspective view) of a small micro motor driving torque inspection jig of the present invention;

fig. 2 is a schematic structural view (right perspective view) of the small micro motor driving torque inspection jig of the present invention;

fig. 3 is a schematic structural view (rear perspective view) of the small micro motor driving torque inspection jig of the present invention.

Description of the reference numerals:

1. a base plate; 3. a Y-axis moving mechanism; 31. moving the plate in the Y-axis direction; 32. moving the screw rod in the Y axial direction; 33. moving the handle in the Y-axis direction; 34. moving the long hole in the Y-axis direction; 35. a Y-axis moving plate fixes the screw; 36. moving the screw positioning plate in the Y-axis direction; 37. a T-shaped embedded groove; 38. the T-shaped embedded groove is matched with the connecting sleeve; 4. a second clamping mechanism; 41. a lower connecting plate; 42. a lower splint; 43. a lower groove; 5. a first clamping mechanism; 51. an upper connecting plate; 52. an upper splint; 53. an upper groove; 6. a Z-axis adjustment mechanism; 61. a Z-axis lead screw; 62. an upper top plate; 63. rotating the handle in the Z-axis direction; 64. a Z-axis positioning rod; 65. moving the plate in the Z-axis direction; 7. a fixing plate; 8. a tension meter moving plate; 81. a first moving plate; 82. a second moving plate; 9. a first longitudinal adjustment mechanism; 91. a first vertical plate; 92. a first long hole; 10. a second longitudinal adjustment mechanism; 1001. a second vertical plate; 1002. a second long hole; 1003. a second positioning screw; 11. moving the plate in the X axial direction; 1101. adjusting the long hole; 12. an X-axis adjustment mechanism; 1201. adjusting a lead screw in the X axial direction; 1202. a first X axial positioning plate; 1203. a second X axial positioning plate; 1204. an X-axis adjusting handle; 1205. an X-axis positioning rod; 1206. an X-axis moving block; 13. a tension meter; 14. a sheave; 15. a string.

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. 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.

As shown in fig. 1, 2 and 3, the present embodiment provides a small micro motor driving torque inspection jig, which includes a bottom plate 1, a first clamping mechanism 5 and a second clamping mechanism 4 for clamping a motor are disposed above the bottom plate 1, the second clamping mechanism 4 is fixed on the bottom plate 1 through a Y-axis moving mechanism 3, the first clamping mechanism 5 is connected with a Z-axis adjusting mechanism 6, and the Z-axis adjusting mechanism 6 is fixed on the Y-axis moving mechanism 3; the device also comprises a fixed plate 7 and a tension meter moving plate 8 which are respectively arranged at two sides of the second clamping mechanism 4, wherein the fixed plate 7 and the tension meter moving plate 8 are oppositely arranged; the fixed plate 7 is fixed on the bottom plate 1 through a first longitudinal adjusting mechanism 9, the tension meter moving plate 8 is fixed on the X-axis moving plate 11 through a second longitudinal adjusting mechanism 10, and the X-axis moving plate 11 is fixed on the bottom plate 1 through an X-axis adjusting mechanism 12; the fixed plate 7 and the tension meter moving plate 8 are both provided with through holes for the penetration of the tension meter, the tension meter 13 is respectively penetrated and installed on the through holes of the fixed plate 7 and the tension meter moving plate 8, the tension meter fixing device further comprises a rope wheel 14 used for being connected with a motor, a rope 15 is wound on the rope wheel 14, one end of the rope 15 is connected with the tension meter 13 fixed on the fixed plate 7, and the other end of the rope is connected with the tension meter 13 fixed on the tension meter moving plate 8.

The utility model provides a small micro motor driving torque checking jig, wherein a first clamping mechanism 5 and a second clamping mechanism 4 are vertically folded, so that the small micro motor can be clamped and fixed; the second clamping mechanism 4 is fixed on the bottom plate 1 through the Y-axis moving mechanism 3, the Y-axis moving mechanism 3 can be adjusted along the Y-axis direction, and is fixed on the bottom plate 1 after being adjusted to a specified position; the first clamping mechanism 5 is connected with the Z-axis adjusting mechanism 6, the Z-axis adjusting mechanism 6 is fixed on the Y-axis moving mechanism 3, the height of the first clamping mechanism 5 in the Z-axis direction can be adjusted through the Z-axis adjusting mechanism 6, and the small micro motor can be conveniently fixed and clamped. The fixed plate 7 and the tension meter moving plate 8 can realize the fixation of two tension meters, the two tension meters are fixed on the X-axis moving plate 11 through the second longitudinal adjusting mechanism 10, the X-axis moving plate 11 is fixed on the bottom plate 1 through the X-axis adjusting mechanism 12, the movement of the tension meter on the tension meter moving plate 8 can be realized, the height adjustment of the fixed plate 7 and the tension meter moving plate 8 in the Z-axis direction can be realized through the design of the first longitudinal adjusting mechanism and the second longitudinal adjusting mechanism, the tension meter and the small micro motor to be measured are enabled to be on the same axis, the rope pulley 14 is sleeved on the small micro motor, the rope 15 is wound on the rope pulley 14, one end of the rope 15 is connected with the tension meter 13 fixed on the fixed plate 7, the other end of the rope is connected with the tension meter moving plate 13 fixed on the tension meter moving plate 8, and the measurement of the motor driving moment of the small micro motor is realized through the tension meter 8. The small micro motor driving torque inspection jig is simple in structure and convenient to detach and install, and can solve the problems that a test instrument is large in size, high in cost, low in detection efficiency, inaccurate in detection data and the like on the premise that the requirement of product test accuracy is met.

The utility model provides a small micromotor drive moment inspection smelting tool is small, and the total weight is only 5Kg (being equivalent to a notebook computer weight), even long-distance travel still does not have the burden and feels.

The utility model provides a little micromotor drive moment inspection smelting tool, easy operation even pupil also can be from the leisurely reply, light measurement.

As shown in fig. 1, 2 and 3, the second clamping mechanism 4 of the present embodiment includes a lower connecting plate 41, a lower clamping plate 42 extending upward is disposed on the lower connecting plate 41, a plurality of lower grooves 43 are disposed at intervals along the length of the top of the lower clamping plate 42, and the lower connecting plate 41 is fixedly connected to the Y-axis moving mechanism 3; the first clamping mechanism 5 comprises an upper connecting plate 51, an upper clamping plate 52 extending downwards is arranged on the upper connecting plate 51, upper grooves 53 which are in one-to-one correspondence with the lower grooves 43 are arranged on the lower bottom surface of the upper clamping plate 52, and the upper connecting plate 51 is connected with the Z-axis adjusting mechanism 6.

The utility model discloses a second fixture 4 includes lower connecting plate 41, is equipped with the lower splint 42 that upwards extends on lower connecting plate 41, and a plurality of low grooves 43 have been laid along length interval in the top of lower splint 42, and lower connecting plate 41 and Y axial moving mechanism 3 rigid coupling; the first clamping mechanism 5 comprises an upper connecting plate 51, an upper clamping plate 52 extending downwards is arranged on the upper connecting plate 51, upper grooves 53 which are in one-to-one correspondence with the lower grooves 43 are formed in the lower bottom surface of the upper clamping plate 52, and the upper connecting plate 51 is connected with the Z axial adjusting mechanism 6.

As shown in fig. 1, 2, and 3, the first longitudinal adjustment mechanism 9 of this embodiment includes a first vertical plate 91, a first long hole 92 is formed along the first vertical plate 91, a first positioning screw penetrates through the first long hole 92, a first connection hole corresponding to the first positioning screw is formed in the fixing plate 7, and the first vertical plate 91 is detachably connected to a side end of the bottom plate; the second longitudinal adjusting mechanism 10 includes a second vertical plate 1001, a second long hole 1002 is distributed along the length of the second vertical plate 1001, a second positioning screw 1003 penetrates through the second long hole 1002, a second connecting hole corresponding to the second positioning screw 1003 is formed in the tension meter moving plate 8, and the second vertical plate 1001 is detachably connected with the X-axis moving plate 11.

The utility model discloses a first vertical adjusting mechanism 9 includes first riser 91, first slot hole 92 is laid along the degree to first riser 91, wears to be equipped with first positioning screw on first slot hole 92, is equipped with the first connecting hole that wears to adorn with first positioning screw on the fixed plate 7, first riser 91 can dismantle with the side of bottom plate and be connected; the second longitudinal adjusting mechanism 10 comprises a second vertical plate 1001, a second long hole 1002 is formed in the second vertical plate 1001 along the length, a second positioning screw 1003 penetrates through the second long hole 1002, a second connecting hole corresponding to the second positioning screw 1003 is formed in the tensiometer moving plate 8, the second vertical plate 1001 and the X axial moving plate 11 can be detachably connected, connection of the first longitudinal adjusting mechanism 9 and the bottom plate 1 is facilitated, connection of the second longitudinal adjusting mechanism 10 and the X axial moving plate 11 is facilitated, meanwhile, the first long hole 92 and the second long hole 1002 are designed, adjustment of the height of the fixing plate 7 and the height of the tensiometer moving plate 8 is facilitated, the structure is simple, and adjustment is convenient.

In this embodiment, the first vertical plate 91 is symmetrically provided with two first long holes 92 on the left and right, so as to ensure the stability of fixing the fixing plate 7.

In this embodiment, two second long holes 1002 are symmetrically formed at the left and right ends of the second vertical plate 1001, so as to ensure the stability of fixing the tension meter moving plate 8.

As shown in fig. 1, the bottom plate 1 of the present embodiment has support legs 16 circumferentially arranged at intervals at the outer edge of the bottom plate, and the bottom of the bottom plate 1 is suspended, so as to facilitate the installation of each component.

As shown in fig. 1, 2 and 3, the Y-axis moving mechanism 3 of the present embodiment includes a Y-axis moving plate 31 located between the fixed plate 7 and the tension meter moving plate 8, the rear end of the Y-axis moving plate 31 is detachably connected to a Y-axis moving screw 32, and one end of the Y-axis moving screw 32 extends out of the bottom plate 1 and is connected to a Y-axis moving handle 33; the bottom plate 1 is provided with a Y-axis moving long hole 34 corresponding to the Y-axis moving plate 31, the bottom of the Y-axis moving plate 31 is provided with a Y-axis moving plate positioning hole corresponding to the Y-axis moving long hole 34, and the Y-axis moving plate fixing screw 35 penetrates through the Y-axis moving long hole 34 and is fixedly connected with the Y-axis moving plate positioning hole in a threaded manner.

The Y-axis moving mechanism 3 of the utility model comprises a Y-axis moving plate 31 which is arranged between a fixed plate 7 and a tension meter moving plate 8, the rear end of the Y-axis moving plate 31 is detachably connected with a Y-axis moving screw 32, and one end of the Y-axis moving screw 32 extends out of a bottom plate 1 to be connected with a Y-axis moving handle 33; the Y-axial moving long hole 34 corresponding to the Y-axial moving plate 31 is formed in the bottom plate 1, a Y-axial moving plate positioning hole corresponding to the Y-axial moving long hole 34 is formed in the bottom of the Y-axial moving plate 31, and a Y-axial moving plate fixing screw 35 penetrates through the Y-axial moving long hole 34 to be in threaded connection with the Y-axial moving plate positioning hole for fixing, so that the Y-axial moving mechanism 3 can move on the bottom plate 1 in the Y-axial direction, the Y-axial moving plate 31 facilitates fixing of the second clamping mechanism 4, the Y-axial moving plate 31 facilitates installation and fixing of the Z-axial adjusting mechanism 6, the Y-axial moving handle 33 is rotated to achieve moving of the Y-axial moving plate 31, and fixing of the Y-axial moving plate 31 is achieved through the Y-axial moving plate fixing screw 35.

As shown in fig. 1, 2 and 3, the present embodiment further includes a Y-axis moving screw positioning plate 36 through which the Y-axis moving screw 32 is inserted, and the Y-axis moving screw positioning plate 36 is detachably connected to the bottom plate 1.

The utility model discloses a Y axial displacement screw rod locating plate 36, the Y axial displacement screw rod locating plate 36 that Y axial displacement screw rod 32 wore the dress can dismantle the design of being connected with bottom plate 1, can realize that the support to Y axial displacement screw rod 32 is fixed, guarantees the stability that Y axial displacement plate 31 removed, guarantees the precision of removal.

As shown in fig. 1, 2 and 3, a T-shaped insertion groove 37 is formed at the top of the Y-axis moving plate 31 of the present embodiment, and a connection sleeve 38 matching with the T-shaped insertion groove is formed at one end of the Y-axis moving screw 32.

The utility model discloses a Y axial movable plate 31 top is equipped with T type embedded groove 37, and Y axial displacement screw rod 32 one end is equipped with the structural design with T type embedded groove matched's adapter sleeve 38, makes things convenient for the joint, and Y axial movable plate 31 and Y axial displacement screw rod 32 are connected and need not the bolt, convenient dismantlement and installation.

As shown in fig. 1, 2, and 3, the Z-axis adjusting mechanism 6 of the present embodiment includes a Z-axis lead screw 61 disposed along the Z-axis direction, a bottom of the Z-axis lead screw 61 is connected to the Y-axis moving plate 31 through a shaft sleeve, a top of the Z-axis lead screw 61 passes through the first clamping mechanism 5 and the upper top plate 62 to be connected to the Z-axis rotating handle 63, Z-axis positioning rods 64 are disposed on two sides of the Z-axis lead screw 61, a bottom of each Z-axis positioning rod 64 is fixedly connected to the Y-axis moving plate 31, a top of each Z-axis positioning rod 64 is fixedly connected to the upper top plate 62, a Z-axis moving plate 65 is disposed between the upper top plate 62 and the Y-axis moving plate 31, the Z-axis lead screw 61 and each Z-axis positioning rod 64 are correspondingly mounted to the Z-axis moving plate 65, and the first clamping mechanism 5 is fixedly connected to the Z-axis moving plate 65.

The utility model discloses a Z axial adjustment mechanism 6 includes the Z axial lead screw 61 that lays along the Z axial, Z axial lead screw 61 bottom is passed through the axle sleeve and is connected with Y axial movable plate 31, first fixture 5 is passed at Z axial lead screw 61 top and goes up roof 62 and be connected with Z axial rotation handle 63, Z axial lead screw 61 both sides are equipped with Z axial positioning pole 64, the bottom and the 31 rigid coupling of Y axial movable plate of each Z axial positioning pole 64, the top and the last roof 62 rigid coupling of each Z axial positioning pole 64, still including being located the Z axial movable plate 65 between roof 62 and Y axial movable plate 31, Z axial lead screw 61 and each Z axial positioning pole 64 all correspond with Z axial movable plate 65 and wear the dress, the structural design of first fixture 5 and Z axial movable plate 65 rigid coupling, can realize that first fixture 5 is along the removal of Z axial, guarantee the stability and the precision of removal.

As shown in fig. 1, 2, and 3, the X-axis adjusting mechanism 12 of this embodiment includes an X-axis adjusting lead screw 1201 disposed along the X-axis direction below the X-axis moving plate 11, one end of the X-axis adjusting lead screw 1201 is connected to a first X-axis positioning plate 1202 through a shaft sleeve, the other end of the X-axis adjusting lead screw 1201 passes through a second X-axis positioning plate 1203 and is connected to an X-axis adjusting handle 1204, and both the first X-axis positioning plate 1202 and the second X-axis positioning plate 1203 are fixed to the bottom plate 1; an X axial moving block 1206 is arranged on the X axial adjusting lead screw 1201 in a penetrating manner, and the X axial adjusting lead screw further comprises X axial positioning rods 1205 respectively arranged on two sides of the X axial adjusting lead screw 1201, each X axial positioning rod 1205 is arranged in the X axial moving block 1206 in a penetrating manner, and two ends of each X axial positioning rod 1205 are fixedly connected with a corresponding first X axial positioning plate 1202 and a corresponding second X axial positioning plate 1203 respectively; the X-axis moving plate 11 is detachably connected to the X-axis moving block 1206.

The utility model discloses an X axial adjustment mechanism 12 includes the X axial adjustment lead screw 1201 that is located and is laid along the X axial below the X axial movable plate 11, X axial adjustment lead screw 1201 one end is connected with first X axial locating plate 1202 through the axle sleeve, the X axial adjustment lead screw 1201 other end passes second X axial locating plate 1203 and is connected with X axial adjustment handle 1204, first X axial locating plate 1202 and second X axial locating plate 1203 all be fixed in with bottom plate 1; an X axial moving block 1206 is arranged on the X axial adjusting lead screw 1201 in a penetrating manner, and the X axial adjusting lead screw further comprises X axial positioning rods 1205 respectively arranged on two sides of the X axial adjusting lead screw 1201, each X axial positioning rod 1205 is arranged in the X axial moving block 1206 in a penetrating manner, and two ends of each X axial positioning rod 1205 are fixedly connected with a corresponding first X axial positioning plate 1202 and a corresponding second X axial positioning plate 1203 respectively; the structural design that X axial moving plate 11 and X axial movable block 1206 can dismantle and be connected can realize the X axial steady movement of X axial moving plate 11, guarantees the precision of removal, and then realizes the removal to the tensiometer, guarantees the measuring precision.

As shown in fig. 1, 2, and 3, the X-axis moving plate 11 of this embodiment is provided with an adjusting long hole 1101 along the Y-axis direction, the X-axis moving block 1206 is provided with an X-axis moving plate positioning hole corresponding to the adjusting long hole 1101, and the positioning rod passes through the adjusting long hole 1101 and is fixedly connected to the X-axis moving plate positioning hole; the tension meter moving plate 8 includes a first moving plate 81 and a second moving plate 82; the first moving plate 81 and the second moving plate 82 are respectively fixed at the left and right ends of the X-axis moving plate 11, and the bottoms of the first moving plate 81 and the second moving plate 82 are respectively detachably connected to the X-axis moving plate 11.

In this embodiment, the second moving plate 82 overlaps the X-axis moving plate 11, and the tension meter is light and does not need to be fixed by the second longitudinal adjustment mechanism 10.

The utility model discloses an adjusting slot 1101 is arranged along the Y-axis direction on the X-axis moving plate 11 of this embodiment, an X-axis moving plate positioning hole corresponding to the adjusting slot 1101 is arranged on the X-axis moving block 1206, and the positioning rod passes through the adjusting slot 1101 and is fixedly connected with the X-axis moving plate positioning hole; the tension meter moving plate 8 includes a first moving plate 81 and a second moving plate 82; the first moving plate 81 and the second moving plate 82 are respectively fixed at the left end and the right end of the X-axis moving plate 11, and the bottoms of the first moving plate 81 and the second moving plate 82 are respectively detachably connected with the X-axis moving plate 11, so that the X-axis moving plate 11 can be moved in the Y-axis direction, the adjustment is convenient, and the precision in measurement is ensured.

A small micro motor driving torque checking jig working process:

s1) assembling small micro motor driving torque checking jig

a) Fixing the Y-axis moving mechanism 3 on the bottom plate 1, fixing the second clamping mechanism 4 on the Y-axis moving mechanism 3, connecting the first clamping mechanism 5 with the Z-axis adjusting mechanism 6, and fixing the Z-axis adjusting mechanism 6 on the Y-axis moving mechanism 3.

b) Fixing a first longitudinal adjusting mechanism 9 on the bottom plate 1, fixing a fixing plate 7 on the first longitudinal adjusting mechanism 9, and adjusting the height of the fixing plate 7; an X-axis adjusting mechanism 12 is fixed on a bottom plate 1, an X-axis moving plate 11 is fixed on the X-axis adjusting mechanism 12, a tension meter moving plate 8 and a second longitudinal adjusting mechanism 10 are respectively fixed on the X-axis moving plate 11, a small micro motor is fixed between a second clamping mechanism 4 and a first clamping mechanism 5, a rope wheel 14 is sleeved on the small micro motor, a rope 15 is wound on the rope wheel 14, and two ends of the rope are respectively connected with corresponding tension meters 13.

c) The heights of the fixed plate 7 and the tension meter moving plate 8 are adjusted to ensure that the transverse axis of the tension meter and the transverse axis of the rope pulley 14 are on the same straight line

And S2) operating the X-axis adjusting mechanism 12, moving the tension meter, and measuring the motor moment.

The fixed plate 7 is provided with a laser infrared level meter which can correct the levelness of the thread rope 15.

The laser infrared level gauge is connected with the fixed plate 7 through a detachable connection,

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 (10)

1. The utility model provides a little micromotor drive torque inspection smelting tool which characterized in that: the clamping device comprises a bottom plate (1), wherein a first clamping mechanism (5) and a second clamping mechanism (4) for clamping a motor are arranged above the bottom plate (1), the second clamping mechanism (4) is fixed on the bottom plate (1) through a Y axial moving mechanism (3), the first clamping mechanism (5) is connected with a Z axial adjusting mechanism (6), and the Z axial adjusting mechanism (6) is fixed on the Y axial moving mechanism (3);

the clamping device is characterized by further comprising a fixed plate (7) and a tension meter moving plate (8) which are respectively arranged on two sides of the second clamping mechanism (4), wherein the fixed plate (7) is fixed on the bottom plate (1) through a first longitudinal adjusting mechanism (9), the tension meter moving plate (8) is fixed on the X-axis moving plate (11) through a second longitudinal adjusting mechanism (10), and the X-axis moving plate (11) is fixed on the bottom plate (1) through an X-axis adjusting mechanism (12);

fixed plate (7) and tensiometer movable plate (8) all are equipped with the perforation that is used for the tensiometer to wear the dress, wear to be equipped with tensiometer (13) respectively on the perforation of fixed plate (7) and tensiometer movable plate (8), still including rope sheave (14) that are used for being connected with the motor, it has cotton rope (15) to twine on rope sheave (14), cotton rope (15) one end is connected with tensiometer (13) that are fixed in on fixed plate (7), the other end is connected with tensiometer (13) that are fixed in on tensiometer movable plate (8).

2. The small micromotor drive torque inspection tool of claim 1, wherein: the second clamping mechanism (4) comprises a lower connecting plate (41), a lower clamping plate (42) extending upwards is arranged on the lower connecting plate (41), a plurality of lower grooves (43) are distributed at intervals along the length of the top of the lower clamping plate (42), and the lower connecting plate (41) is fixedly connected with the Y-axis moving mechanism (3);

the first clamping mechanism (5) comprises an upper connecting plate (51), an upper clamping plate (52) extending downwards is arranged on the upper connecting plate (51), upper grooves (53) which are in one-to-one correspondence with the lower grooves (43) are formed in the lower bottom surface of the upper clamping plate (52), and the upper connecting plate (51) is connected with the Z-axis adjusting mechanism (6).

3. The small micromotor drive torque inspection tool of claim 2, wherein: the first longitudinal adjusting mechanism (9) comprises a first vertical plate (91), a first long hole (92) is formed in the first vertical plate (91) along the length, a first positioning screw rod penetrates through the first long hole (92), a first connecting hole penetrating correspondingly to the first positioning screw rod is formed in the fixing plate (7), and the first vertical plate (91) is detachably connected with the side end of the bottom plate (1);

the second longitudinal adjusting mechanism (10) comprises a second vertical plate (1001), a second long hole (1002) is formed in the second vertical plate (1001) along the length, a second positioning screw (1003) penetrates through the second long hole (1002), a second connecting hole corresponding to the second positioning screw (1003) is formed in the tension meter moving plate (8), and the second vertical plate (1001) is detachably connected with the X-axis moving plate (11).

4. The small micromotor drive torque inspection tool of claim 3, wherein: supporting legs (16) are circumferentially distributed at intervals on the outer edge of the lower plate surface of the bottom plate (1).

5. The small micromotor drive torque inspection tool of claim 4, wherein: the Y-axis moving mechanism (3) comprises a Y-axis moving plate (31) positioned between the fixed plate (7) and the tension meter moving plate (8), the rear end of the Y-axis moving plate (31) is detachably connected with a Y-axis moving screw (32), and one end of the Y-axis moving screw (32) extends out of the bottom plate (1) and is connected with a Y-axis moving handle (33);

the bottom plate (1) is provided with a Y axial moving long hole (34) corresponding to the Y axial moving plate (31), the bottom of the Y axial moving plate (31) is provided with a Y axial moving plate positioning hole corresponding to the Y axial moving long hole (34), and a Y axial moving plate fixing screw (35) penetrates through the Y axial moving long hole (34) and is fixedly connected with the Y axial moving plate positioning hole in a threaded mode.

6. The small micromotor drive torque inspection tool of claim 5, wherein: the Y-axis moving screw positioning plate (36) is penetrated and installed by the Y-axis moving screw (32), and the Y-axis moving screw positioning plate (36) is detachably connected with the bottom plate (1).

7. The small micromotor drive torque inspection tool of claim 6, wherein: the top of the Y-axis moving plate (31) is provided with a T-shaped embedded groove (37), and one end of the Y-axis moving screw rod (32) is provided with a connecting sleeve (38) matched with the T-shaped embedded groove.

8. The small micromotor drive torque inspection tool of claim 7, wherein: z axial adjustment mechanism (6) include Z axial lead screw (61) that lay along the Z axial, Z axial lead screw (61) bottom is connected with Y axial movable plate (31) through the axle sleeve, first fixture (5) and last top plate (62) are passed at Z axial lead screw (61) top and are connected with Z axial rotation handle (63), Z axial lead screw (61) both sides are equipped with Z axial locating lever (64), the bottom and the Y axial movable plate (31) rigid coupling of each Z axial locating lever (64), the top and the last top plate (62) rigid coupling of each Z axial locating lever (64), still including Z axial movable plate (65) that are located between last top plate (62) and Y axial movable plate (31), Z axial lead screw (61) and each Z axial locating lever (64) all wear to adorn with Z axial movable plate (65) correspondence, first fixture (5) and Z axial movable plate (65) rigid coupling.

9. The small micromotor drive torque inspection tool of claim 1, wherein: the X axial adjusting mechanism (12) comprises an X axial adjusting lead screw (1201) which is arranged below the X axial moving plate (11) along the X axial direction, one end of the X axial adjusting lead screw (1201) is connected with a first X axial positioning plate (1202) through a shaft sleeve, the other end of the X axial adjusting lead screw (1201) passes through a second X axial positioning plate (1203) to be connected with an X axial adjusting handle (1204), and the first X axial positioning plate (1202) and the second X axial positioning plate (1203) are both fixed on the bottom plate (1); an X axial moving block (1206) is arranged on the X axial adjusting lead screw (1201) in a penetrating mode, and the X axial adjusting lead screw further comprises X axial positioning rods (1205) respectively arranged on two sides of the X axial adjusting lead screw (1201), each X axial positioning rod (1205) is arranged in the X axial moving block (1206) in a penetrating mode, and two ends of each X axial positioning rod (1205) are fixedly connected with a corresponding first X axial positioning plate (1202) and a corresponding second X axial positioning plate (1203) respectively; the X-axis moving plate (11) is detachably connected with the X-axis moving block (1206).

10. The small micromotor drive torque inspection tool of claim 1, wherein: an adjusting long hole (1101) is formed in the X-axis moving block (11) along the Y-axis direction, an X-axis moving block positioning hole corresponding to the adjusting long hole (1101) is formed in the X-axis moving block (1206), and the positioning rod penetrates through the adjusting long hole (1101) and is fixedly connected with the X-axis moving block positioning hole;

the tension meter moving plate (8) comprises a first moving plate (81) and a second moving plate (82); the first moving plate (81) and the second moving plate (82) are respectively fixed at the left end and the right end of the X-axis moving plate (11), and the bottoms of the first moving plate (81) and the second moving plate (82) are respectively detachably connected with the X-axis moving plate (11).

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