CN213673894U - Assembling equipment - Google Patents

Abstract

The utility model discloses an assembly equipment, including support column, uide bushing and fixed tool, the support column is pegged graft in the uide bushing and its top surface is not higher than the holding surface of fixed tool, and the uide bushing can go up and down between first height and second height, and at first height department, its top surface is less than the top surface of support column, and at second height department, its top surface is located the top surface top of support column, and fixed tool is used for fixed socket, has the installation through-hole that corresponds and can supply to be in the uide bushing of second height to pass with the uide bushing on it. This scheme carries out the fixed of socket through fixed tool, pass the jack of the socket on the fixed tool through the uide bushing, and support the barred body that inserts in the uide bushing through the support column, can prescribe a limit to the mounted position of barred body effectively, move down the uide bushing afterwards and can realize the equipment of barred body and socket, easily equipment is realized, and can assemble with the cooperation of automatic excellent mechanism of supplying, can effectively avoid polluting the top surface of barred body, guarantee to assemble into the product rate.

Description

Assembling equipment

Technical Field

The utility model belongs to the technical field of medical instrument and specifically relates to equipment.

Background

In various testing processes, a reaction surface at one end of a testing rod is often used to contact and react with an object to be tested, and then a testing result is obtained. Before testing, the testing rod and a silica gel base are assembled into a whole.

The existing assembly is often manually assembled, and because the diameter of the test rod is equivalent to that of the jack of the silica gel seat, the insertion operation has certain difficulty, so that the reaction surface of the test rod is easily polluted during manual assembly, the assembled test rod cannot be effectively used, and the quality of finished products is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an equipment for solve the above-mentioned problem that exists among the prior art.

The purpose of the utility model is realized through the following technical scheme:

the assembly equipment is used for assembling a rod body and a socket and comprises a support column, a guide sleeve and a fixing jig, wherein the support column is inserted into the guide sleeve, the top surface of the support column is not higher than the supporting surface of the fixing jig, the guide sleeve can be lifted between a first height and a second height, the top surface of the guide sleeve is lower than the top surface of the support column at the first height, the top surface of the guide sleeve is located above the top surface of the support column at the second height, the fixing jig is used for fixing the socket, and an installation through hole which corresponds to the guide sleeve and can be used for the guide sleeve to pass through is formed in the fixing jig.

Preferably, in the assembling apparatus, the supporting columns are multiple and distributed in multiple rows and multiple columns, and each supporting column corresponds to one guiding sleeve.

Preferably, in the assembling apparatus, the guide sleeve is fixed on a base plate, and the base plate is connected with a lifting driving device for driving the base plate to lift.

Preferably, in the assembling apparatus, the lifting drive device is a linear motor.

Preferably, in the assembling device, the fixing jig comprises a bottom plate and a pressing plate, the bottom plate is provided with the mounting through hole, and the pressing plate is provided with a limiting hole coaxial with the mounting through hole.

Preferably, in the assembling device, the press plate and the bottom plate are provided with a positioning piece and a positioning hole which are matched with each other.

Preferably, the assembling device further includes at least two guide shafts parallel to the axis of the guide sleeve, and the fixing jig defines a horizontal position of the fixing jig, and a positioning through hole corresponding to the guide shaft is formed in the fixing jig.

Preferably, in the assembling apparatus, a top of the guide shaft is in a circular truncated cone shape.

Preferably, the assembling device further comprises a fixing jig height limiting mechanism for limiting the installation height of the fixing jig.

Preferably, the assembly equipment in, still include climbing mechanism, climbing mechanism includes two fixed cylinder in position or linear electric motor, their telescopic shaft with the axis of uide bushing is parallel, the telescopic shaft can drive fixed tool keeps the clearance with the limit for height board of fixed tool limit for height mechanism.

The utility model discloses technical scheme's advantage mainly embodies:

this scheme carries out the fixed of socket through fixed tool, pass the jack of the socket on the fixed tool through the uide bushing, and support the barred body that inserts in the uide bushing through the support column, can prescribe a limit to the mounted position of barred body effectively, move down the uide bushing afterwards and can realize the equipment of barred body and socket, easily equipment is realized, and can assemble with the cooperation of automatic excellent mechanism of supplying, can effectively avoid polluting the top surface of barred body, guarantee to assemble into the product rate.

A plurality of plates of this scheme are injectd through a plurality of guide structure, can guarantee each plate effectively and go up the position accuracy of structure, have guaranteed the reliability and the smooth and easy nature of equipment.

The height that the tool can be installed effectively to this scheme further increases limit for height mechanism is injectd to guarantee the mounted position precision of barred body, combine climbing mechanism can conveniently make the installation tool separate with limit for height mechanism, thereby be convenient for the unloading of fixed tool.

Drawings

Fig. 1 is a cross-sectional view of the present invention;

FIG. 2 is an enlarged view of the area Q of FIG. 1;

fig. 3 is a top view of the present invention;

fig. 4 is a rear view of the present invention.

Detailed Description

Objects, advantages and features of the present invention will be illustrated and explained by the following non-limiting description of preferred embodiments. These embodiments are merely exemplary embodiments for applying the technical solutions of the present invention, and all technical solutions formed by adopting equivalent substitutions or equivalent transformations fall within the scope of the present invention.

In the description of the embodiments, it should be noted that the terms "center", "upper", "lower", "left", "right", "front", "rear", "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 simplicity of description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, 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 embodiment, the operator is used as a reference, and the direction close to the operator is a proximal end, and the direction away from the operator is a distal end.

The following describes the assembling apparatus of the present invention with reference to the accompanying drawings, as shown in fig. 1 and fig. 2, which is used for assembling a rod 6000 and a socket 7000, and includes a supporting pillar 5100, a guiding sleeve 5200 and a fixing jig 5300, wherein the supporting pillar 5100 is inserted into the guiding sleeve 5200, and the top surface of the supporting pillar is not higher than the supporting surface of the fixing jig, the guiding sleeve 5200 can be lifted and lowered between a first height at which the top surface 5210 of the guiding sleeve 5200 is lower than the top surface 5110 of the supporting pillar 5100 and a second height at which the top surface 5210 of the guiding sleeve 5200 is located above the top surface 5110 of the supporting pillar 5100, and the fixing jig is used for fixing the socket and has a mounting through hole thereon corresponding to the guiding sleeve 5200 and allowing the guiding sleeve at the second height to pass through.

In order to realize batch assembly, as shown in fig. 1, the supporting columns 5100 are multiple and distributed in multiple rows and columns, and are fixed on a carrier 5400, the carrier 5400 comprises a flat plate 5410 perpendicular to the supporting columns 5100, the flat plate 5410 is provided with a guide plate 5420 parallel to the flat plate 5410 and used for limiting the supporting columns 5100, and the guide plate 5420 is provided with guide holes 5430.

As shown in fig. 1 and fig. 2, each support column 5100 corresponds to a guide sleeve 5200, that is, a guide sleeve 5200 is sleeved on the periphery of each support column 5100, the guide sleeve 5200 is vertically fixed on a substrate 5500 parallel to the flat plate 5410, and the lower end of the guide sleeve 5200 extends to the bottom surface of the substrate 5500, the substrate 5500 is connected with a lifting driving device 5600 for driving the substrate to lift, the lifting driving device 5600 can be various known devices capable of generating linear movement, such as an air cylinder or a hydraulic cylinder, and is preferably a linear motor, and the telescopic shaft of the lifting driving device 5600 penetrates through the carrier 5400 and is connected to the central position of the bottom of the substrate. And the linear motor is fixed to the bottom of the cross plate 5710 of a frame 5700.

As shown in fig. 1, fig. 3, and fig. 4, guide sleeves 5510 are further disposed at four vertex angles of the base plate 5500, an axis of each guide sleeve 5510 is perpendicular to the base plate 5500, each guide sleeve 5510 is slidably sleeved on an outer circumference of a guide shaft 5520, the position of the guide shaft 5520 is fixed, and each guide sleeve 5510 is movably inserted into a guide hole 5430 formed in the guide plate 5420. Therefore, the synchronous limit of the substrate 5500 and the carrier 5400 can be realized through the guide shaft 5520.

As shown in fig. 1 and 2, each guide sleeve 5200 corresponds to one of the mounting through holes 5311, the mounting through holes 5311 are disposed on a bottom plate 5310 of the fixing jig 5300, a top surface of the bottom plate 5310 is a supporting surface of the fixing jig 5300, an aperture of the mounting through hole 5311 is equivalent to an outer diameter of the guide sleeve 5200, so as to meet a requirement that the guide sleeve 5200 can move therein, preferably, the aperture of the guide sleeve 5200 is consistent with a horn mouth 7110 with a large bottom and a small top at a lower end of the insertion hole 7100 on the socket 7000, and a bottom of the mounting through hole 5311 is a horn-shaped mouth with a small top and a large bottom, so that the guide sleeve 5200 can conveniently enter the mounting through hole 5311 from bottom and pass through the socket 7000 fixed on the fixing jig 5300. A plurality of the sockets 7000 are passed through a pressing plate 5320, the pressing plate 5320 is provided with a stopper hole 5321 coaxial with each of the mounting through holes 5311, and the diameter of the stopper hole 5321 is smaller than the bottom plate 7200 of the socket 7000, so that the socket 7000 therebetween can be effectively held and fixed when the pressing plate 5320 and the bottom plate 5310 are fixed together.

In addition, in order to ensure the position accuracy of each of the limiting holes 5321 and the installation through holes 5311, the pressing plate 5320 and the bottom plate 5310 are provided with a positioning element and a positioning hole, specifically, two insertion plates (not shown) are respectively provided at two sides of the pressing plate, and the bottom plate 5310 is provided with an insertion hole 5312 corresponding to each of the insertion plates 5322, as shown in fig. 3.

Meanwhile, in order to ensure the position accuracy of the installation through hole 5311 and the guide sleeve 5200, as shown in fig. 3 and 4, a positioning through hole 5313 coaxial with the guide shaft 5520 is formed on the bottom plate 5310, a guide sleeve 5330 is disposed in each positioning through hole 5313, the guide shaft 5520 is slidably inserted into the guide sleeve 5330, and an outer wall of the guide shaft 5520 abuts against an inner wall of the guide sleeve 5330, and in order to facilitate the insertion of the guide shaft 5520 into the guide sleeve 5330, a top end of the guide shaft 5520 is in a truncated cone shape, and when the guide shaft 5520 is inserted into the guide sleeve 5330, a horizontal position of the bottom plate 5310 can be effectively defined.

Further, during assembly, there are specific requirements for the position of the bar body on the socket, and therefore, when the top position of the support column 5100 is fixed, the height of the fixing jig 5300, and therefore the height of the socket 7000 thereon, is limited, and finally the control of the bar body installation position is achieved. Specifically, as shown in fig. 4, the assembling apparatus further includes a fixed jig height limiting mechanism 5800 for limiting the installation height of the fixed jig, the fixed jig height limiting mechanism 5800 includes a height limiting plate 5810, the height limiting plate 5810 is fixed on four support columns 5820 and is parallel to the bottom plate 5310, the top surface of the height limiting plate 5810 is located below the circular truncated cone of the guide shaft 5520, and the specific height is designed as required. Meanwhile, four support columns 5820 are inserted into the guide shaft sleeves 5430 on the carrier 5400 and penetrate through the substrate 5500.

Finally, in order to facilitate the separation of the fixing jig 5300 from the height-limiting plate 5810 to facilitate the removal of the fixing jig 5300, as shown in fig. 1, the assembling apparatus further includes a jacking mechanism 5900, where the jacking mechanism 5900 includes two fixed cylinders or linear motors, whose telescopic shafts are parallel to the axis of the guide sleeve, and can drive the fixing jig 5300 and the height-limiting plate to maintain a gap, the jacking mechanism 5900 is fixed on the bottom of the second horizontal plate 5720 of the rack 5700, and its telescopic shafts can pass through the second horizontal plate 5720, the carrier plate 5400, the base plate 5500 and the height-limiting plate 5810, so as to apply an upward jacking force to the bottom of the fixing jig 5300 to separate the fixing jig 5300 from the height-limiting plate 5810, and at the same time, it does not withdraw the fixing jig from the guide shaft.

When the socket is assembled, a group of sockets can be fixed on the fixing jig, the guide sleeve is kept at the second height, then the fixing jig is moved downwards to enable the guide shaft to be inserted into the guide sleeve body on the fixing jig, after the fixing jig falls on the height limiting plate, the guide sleeve is inserted into the insertion hole of the socket, the top surface of the guide sleeve is at least flush with the top surface of the socket, preferably higher than the top surface of the socket, then the rod body is inserted into the guide sleeve from the upper part of the guide sleeve and falls onto the support column, then the guide sleeve is moved downwards to the first height from the second height, so that the socket clamps the rod body, finally, the jacking mechanism 5900 drives the fixing jig 5300 to jack, and the fixing jig is moved away from the height limiting plate through automatic equipment or manual work.

In another embodiment, the fixing jig fixed with the socket may be placed on the height-limiting plate to limit the height of the fixing jig, and then the guide sleeve is moved upward to the second height, and then the rod is placed in the guide sleeve.

The utility model has a plurality of implementation modes, and all technical schemes formed by adopting equivalent transformation or equivalent transformation all fall within the protection scope of the utility model.

Claims (10)

1. The equipment of equipment for the equipment of barred body and socket, its characterized in that: the supporting column is inserted into the guide sleeve, the top surface of the supporting column is not higher than the supporting surface of the fixing jig, the guide sleeve can lift between a first height and a second height, the top surface of the guide sleeve is lower than the top surface of the supporting column at the first height, the top surface of the guide sleeve is located above the top surface of the supporting column at the second height, the fixing jig is used for fixing a socket, and an installation through hole which corresponds to the guide sleeve and can be used for the guide sleeve to pass through is formed in the fixing jig.

2. The assembly apparatus of claim 1, wherein: the support column is a plurality of and be multirow multiseriate and distribute, every the support column corresponds with a uide bushing.

3. The assembly apparatus of claim 1, wherein: the guide sleeve is fixed on a substrate, and the substrate is connected with a lifting driving device for driving the substrate to lift.

4. The assembly apparatus of claim 3, wherein: the lifting driving device is a linear motor.

5. The assembly apparatus of claim 1, wherein: the fixing jig comprises a bottom plate and a pressing plate, the bottom plate is provided with the installation through hole, and the pressing plate is provided with a limiting hole coaxial with the installation through hole.

6. The assembly apparatus of claim 5, wherein: and the pressing plate and the bottom plate are provided with a positioning piece and a positioning hole which are matched with each other.

7. The assembly apparatus of claim 1, wherein: the fixture is characterized by further comprising at least two guide shafts which limit the horizontal positions of the fixture and are parallel to the axis of the guide sleeve, and positioning through holes corresponding to the guide shafts are formed in the fixture.

8. The assembly apparatus of claim 7, wherein: the top of the guide shaft is in a circular truncated cone shape.

9. The assembly apparatus of claim 1, wherein: the fixture height limiting mechanism is used for limiting the installation height of the fixture.

10. The assembly apparatus of claim 9, wherein: the lifting mechanism comprises two cylinders or linear motors with fixed positions, telescopic shafts of the cylinders or linear motors are parallel to the axis of the guide sleeve, and the telescopic shafts can drive the fixed jig to be lifted and the height limiting plate of the fixed jig height limiting mechanism to keep a gap.

Images