CN203712207U - Press fit mechanism and casing pipe penetrating device with same - Google Patents

Abstract

The utility model discloses a press fit mechanism. The press fit mechanism comprises a base, an upper pressing block, a lower pressing block and a driving mechanism, wherein the base is provided with a first side surface and a second side surface which are opposite to each other, and a notch groove is formed in the first side surface; the upper pressing block and the lower pressing block are arranged in the notch groove in a laminated mode and capable of slidably sleeving a guide rod along the vertical direction, and the guide rod and the base are fixed; the driving mechanism is used for driving the upper pressing block and the lower pressing block to perform synchronous face-to-face movement or back-to-back movement, and thereby, the upper pressing block is attached to or separated from the lower pressing block. The utility model further discloses a casing pipe penetrating device with the press fit mechanism. By means of the press fit mechanism and the casing pipe penetrating device with the same, the center position of a casing pipe placing groove of the press fit mechanism is kept invariable, the center position of a casing pipe and a wire outlet end of a wire feeding mechanism are always on the same axis during threading in spite of diameters of the casing pipe, problems of repeatedly adjusting and correcting the height of the wire outlet end of the wire feeding mechanism in terms of casing pipes with different diameters, and the like are avoided, and the producing and machining efficiency is increased.

Description

A kind of laminating mechanism and use the sleeve-penetrating equipment of this laminating mechanism

Technical field

The utility model relates to sleeve-penetrating equipment, relates in particular to a kind of laminating mechanism and uses the sleeve-penetrating equipment of this laminating mechanism.

Background technology

At other electronic products such as similar transformer, motors, all contain the core component that enamel-covered wire coiling forms, and in the manufacture process of these core components, often need to put Teflon pipe-in-pipe at the initiating terminal of enamel-covered wire, climb the good and resistance to pressure of tin to increase it, but, due to these parts in process of production, enamel-covered wire is by coil winding machine automatic winding, therefore, want to make sleeve-penetrating technique and automatic winding suitable, this technique of automatic sleeve-penetrating is had higher requirement.

The general manual type that adopts of existing sleeve-penetrating processing, by manually sleeve pipe being through to the line end of enamel-covered wire, this mode is relative with automatic winding, it is very large that its efficiency differs, cannot be suitable with automatic winding, and the only a few automatic sleeve-penetrating mechanism occurring on market, comprise axis movement platform and be arranged at wire agency on axis movement platform, tube feeding mechanism, laminating mechanism and tube cutting mechanism etc., by tube feeding mechanism, sleeve pipe is fed through in laminating mechanism and is fixed, by tube cutting mechanism, sleeve pipe is cut into chunks again, and stay laminating mechanism inside, finally by wire agency, enamel-covered wire is passed to the center of laminating mechanism middle sleeve, complete sleeve-penetrating processing.

But, laminating mechanism in existing automatic sleeve-penetrating mechanism, for example Chinese patent, publication number CN203304860U, all to adopt fixed head and pressure plate structure, move downward and sleeve pipe is pressed on fixed head by pressing plate, fixed head remains inactive state, like this, in the time changing the sleeve pipe of different-diameter, the centre-height position of sleeve pipe is different, the sleeve pipe that diameter is larger, while being placed in the sleeve pipe standing groove of laminating mechanism, its center is higher, and in threading process, enamel-covered wire requires the center of alignment sleeve, therefore, in the time changing large sleeve pipe, must regulate the height and position of wire agency leading-out terminal, so that the center of leading-out terminal is consistent with the centre-height of laminating mechanism middle sleeve, again due to enamel-covered wire and sleeve pipe relatively little, therefore, comparatively bothersome effort in the time regulating wire agency leading-out terminal height and position, and be difficult to ensure highly in full accord, error is larger, simultaneously, this adjustment process also makes the efficiency of production lower.

Utility model content

The purpose of this utility model is to overcome deficiency of the prior art and a kind of laminating mechanism providing and the sleeve-penetrating equipment that uses this mechanism.

The technical scheme that the utility model solution prior art problem adopts is: a kind of laminating mechanism, it comprises

Pedestal, described pedestal has the first relative side and the second side, and described the first side is provided with a gap slot;

Upper holder block and lower lock block, described upper holder block and lower lock block are stacked to be arranged in described gap slot, and can vertically be set in slidably on guide post, and described guide post and described pedestal are fixed;

Driving mechanism, in order to drive described upper holder block and lower lock block locking phase to or counter motion so that upper holder block and lower lock block laminating or separate.

Below technique scheme is further elaborated:

Further, also comprise in the time that driving mechanism is not worked, make described upper holder block keep with lower lock block the flexible restoring organ separating.

Further, described driving mechanism comprises the first connector, the second connector and thrust unit,

One end of described the first connector is hinged by the first rotating shaft and described upper holder block, and one end of described the second connector is hinged by the second rotating shaft and described lower lock block;

The other end and a STATEMENT OF FEDERALLY SPONSORED of described the first connector and the second connector are hinged, and the first connector and the second connector shape have angle;

Described STATEMENT OF FEDERALLY SPONSORED is connected with described thrust unit, and described thrust unit is fixed on described pedestal.

Further, described the second side is provided with the slideway that is through to described gap slot side, and described STATEMENT OF FEDERALLY SPONSORED is mounted slidably in described slideway;

On described upper holder block, be provided with the first breach near the side of described gap slot inner side, described the first rotating shaft is fixed between the two side of described the first breach; On described lower lock block, be provided with the second breach near the side of described gap slot inner side, described the second rotating shaft is fixed between the two side of described the second breach.

Further, described thrust unit is cylinder,

Described the second side is provided with the installation cavity that is through to described gap slot side, and described cylinder is fixedly installed in described installation cavity;

The front end of described STATEMENT OF FEDERALLY SPONSORED is convex an abutting part, and the cylinder rod of described cylinder and described abutting part support.

Further, described flexible restoring organ comprises with the screw rod of plug and is sheathed on the back-moving spring on described screw rod, and described screw rod is fixedly connected with the rear end of described STATEMENT OF FEDERALLY SPONSORED, and described back-moving spring is connected between described plug and pedestal.

A kind of sleeve-penetrating equipment, it comprises axis movement platform and is arranged on axis movement platform in order to carry the wire agency of enamel-covered wire, in order to the tube feeding mechanism of delivery cannula, in order to the laminating mechanism that the sleeve pipe of described tube feeding mechanism output is fixed, in order to the tube cutting mechanism that the sleeve pipe entering in laminating mechanism is cut off

Its improvement is: described laminating mechanism is mounted slidably on described axis movement platform, and drives this laminating mechanism to travel to and fro between in primary importance and the second place by a drive unit;

Described laminating mechanism comprises

Pedestal, described pedestal has the first relative side and the second side, and described the first side is provided with a gap slot;

Upper holder block and lower lock block, described upper holder block and lower lock block are stacked to be arranged in described gap slot, and can vertically be set in slidably on guide post, and described guide post and described pedestal are fixed; The lower surface of described upper holder block and the upper surface of lower lock block are provided with relative sleeve pipe standing groove;

Driving mechanism, in order to drive described upper holder block and lower lock block locking phase to or counter motion so that upper holder block and lower lock block laminating or separate;

In the time that laminating mechanism is positioned at primary importance, described sleeve pipe standing groove is relative with the output of described tube feeding mechanism, so that sleeve pipe enters sleeve pipe standing groove; In the time that laminating mechanism is positioned at the second place, described sleeve pipe standing groove is relative with the output of described wire agency, so that enamel-covered wire enters sleeve pipe standing groove and passes the sleeve pipe in sleeve pipe standing groove.

Below technique scheme is further elaborated:

Further, on described axis movement platform, be installed with a support member near described the second lateral location, be provided with a double-screw bolt in described support member, one end of described double-screw bolt has one for gripping the knob of this double-screw bolt of rotation, and the rear end end face of the other end and described STATEMENT OF FEDERALLY SPONSORED offsets.

Further, described driving mechanism comprises the first connector, the second connector and thrust unit,

One end of described the first connector is hinged by the first rotating shaft and described upper holder block, and one end of described the second connector is hinged by the second rotating shaft and described lower lock block;

The other end and a STATEMENT OF FEDERALLY SPONSORED of described the first connector and the second connector are hinged, and the first connector and the second connector shape have angle;

Described STATEMENT OF FEDERALLY SPONSORED is connected with described thrust unit, and described thrust unit is fixed on described pedestal.

Further, described the second side is provided with the slideway that is through to described gap slot side, and described STATEMENT OF FEDERALLY SPONSORED is mounted slidably in described slideway;

On described upper holder block, be provided with the first breach near the side of described gap slot inner side, described the first rotating shaft is fixed between the two side of described the first breach; On described lower lock block, be provided with the second breach near the side of described gap slot inner side, described the second rotating shaft is fixed between the two side of described the second breach.

The beneficial effects of the utility model are: in the utility model, due to laminating mechanism adopt upper holder block and lower lock block locking phase to or counter motion, so that the mode that upper holder block is fitted or separated with lower lock block, so, use the sleeve-penetrating equipment of this laminating mechanism, the sleeve pipe standing groove center that can ensure laminating mechanism is constant, no matter casing diameter is much, in threading process, the leading-out terminal of sleeve pipe center and wire agency always remains on same axis, avoid the sleeve pipe of different-diameter, need to repeatedly regulate problems such as proofreading and correct wire agency leading-out terminal height, improve the efficiency of production and processing, simultaneously, also make the leading-out terminal contraposition of sleeve pipe center and wire agency more accurate.

Brief description of the drawings

Fig. 1 is the stereogram one of the utility model laminating mechanism embodiment;

Fig. 2 is the stereogram two of the utility model laminating mechanism embodiment;

Fig. 3 is driving mechanism schematic diagram one in the utility model laminating mechanism;

Fig. 4 is the partial enlarged drawing at A place in Fig. 3;

Fig. 5 is driving mechanism schematic diagram two in the utility model laminating mechanism;

Fig. 6 is the structural representation of another embodiment of driving mechanism in the utility model laminating mechanism;

Fig. 7 is the structural representation one of the utility model sleeve-penetrating equipment;

Fig. 8 is the structural representation two of the utility model sleeve-penetrating equipment;

In figure: pedestal 10; The first side 101; The second side 102; Gap 103; Upper holder block 11; Lower lock block 12; Sleeve pipe standing groove 121; Guide post 13; Cylinder 141; The first connector 142; The second connector 143; STATEMENT OF FEDERALLY SPONSORED 144; Support division 1441; The first rotating shaft 145; The second rotating shaft 146; Insertion section 147; Protuberance 1442; Screw rod 151; Plug 1511; Spring 152; Baffle plate 153;

Laminating mechanism 100; Slide track component 110; Drive cylinder 120; Block 130; Holder 200; Axis movement platform 300; Tube feeding mechanism 400; Wire agency 500; Tangent mechanism 600; Tube cutting mechanism 700.

Realization, functional characteristics and the advantage of the utility model object, in connection with embodiment, are described further with reference to accompanying drawing.

Detailed description of the invention

Describe the technical solution of the utility model in detail below with reference to drawings and the specific embodiments, so as clearer, understand invention essence of the present utility model intuitively.

Shown in Fig. 1, Fig. 2, embodiment of the present utility model provides a kind of laminating mechanism, it comprises pedestal 10, upper holder block 11, lower lock block 12 and driving mechanism, wherein, pedestal 10 has the first relative side 101 and the second side 102, as preferably, pedestal 10 is square, and the first side 101 is provided with a gap slot, upper holder block 11 is arranged in gap slot with lower lock block 12 is stacked, and the lower surface of upper holder block 11 is parallel with the upper surface of lower lock block 12, certainly overall height when being stacked together of upper holder block 11 and lower lock block 12 is less than the height of gap slot, simultaneously, this upper holder block 11 and lower lock block 12 can vertically be set on guide post 13 slidably, guide post 13 is fixing with pedestal 10, thus, upper holder block 11 and lower lock block 12 can be along moving under guide post 13 in the vertical directions, and when upper holder block 11 moves upward, when lower lock block 12 moves downward, between upper holder block 11 and lower lock block 12, form the gap 103 that can form certain distance, this gap 103 can be used for placing workpiece to be compressed etc., driving mechanism in order to drive described upper holder block 11 and lower lock block 12 locking phases to or counter motion, so that upper holder block 11 is fitted or separates with lower lock block 12, concrete, when upper holder block 11 moves upward, when lower lock block 12 moves downward (oppositely), upper holder block 11 separates with lower lock block 12, when 11 times motions of upper holder block, when lower lock block 12 moves upward (in opposite directions), upper holder block 11 compresses with lower lock block 12.

It should be noted that, in order to ensure in upper holder block 11 and lower lock block 12 motion processes, the mid point of the height of its above-mentioned gap 103 in the vertical directions is constant, driving mechanism drives upper holder block 11 and lower lock block 12 in opposite directions or when counter motion, the displacement that upper holder block 11 moves upward in vertical direction side with lower lock block 12 must equate, upper holder block 11 is synchronized with the movement with lower lock block 12.

In addition, also comprise flexible restoring organ, this flexible restoring organ is not in the time that driving mechanism is worked, make described upper holder block 11 keep separating with lower lock block 12, so, upper holder block 11 and lower lock block 12 in released state, form above-mentioned gap 103 between the two under original state, are convenient to workpiece to be compressed to put into the gap 103 forming to upper holder block 11 and lower lock block 12.

With reference to shown in Fig. 3 to Fig. 5, in the present embodiment, driving mechanism comprises the first connector 142, the second connector 143 and thrust unit, and as preferably, the first connector 142 and the second connector 143 are strip; One end of the first connector 142 is hinged with upper holder block 11 by the first rotating shaft 145, and one end of the second connector 143 is hinged with lower lock block 12 by the second rotating shaft 146; The other end of the first connector 142 and the second connector 143 and a STATEMENT OF FEDERALLY SPONSORED 144 are hinged, and the first connector 142 and the second connector 143 shapes have angle, the first connector 142, the second connector 143 are connected to form linkage with STATEMENT OF FEDERALLY SPONSORED 144, STATEMENT OF FEDERALLY SPONSORED 144 is connected with thrust unit, and thrust unit is fixed on pedestal 10.Thus, in the time that thrust unit moves, promote STATEMENT OF FEDERALLY SPONSORED 144 and move, when STATEMENT OF FEDERALLY SPONSORED 144 is moved, promote the first connector 142 and the second connector 143 moves, the first connector 142 and the second connector 143 further drive upper holder block 11 and lower lock block 12 locking phases to or counter motion; Concrete, when STATEMENT OF FEDERALLY SPONSORED 144 promotes the first connector 142, the second connector 143 moves, and when the angle between the first connector 142 and the second connector 143 increases, upper holder block 11 moves upward, lower lock block 12 moves downward (counter motion), upper holder block 11 and lower lock block 12 gradually away from, gap 103 between the two increases; When STATEMENT OF FEDERALLY SPONSORED 144 promotes the first connector 142, the second connector 143 moves, and when the angle between the first connector 142 and the second connector 143 reduces, upper holder block 11 moves downward, lower lock block 12 move upward (move toward one another), upper holder block 11 is close gradually with lower lock block 12, and gap 103 between the two reduces.

In preferred embodiments more of the present utility model, the second side 102 is provided with the slideway that is through to gap slot side, and STATEMENT OF FEDERALLY SPONSORED 144 is mounted slidably in described slideway, thus, in the time that thrust unit moves, can promote STATEMENT OF FEDERALLY SPONSORED 144 and slide in slideway; Meanwhile, on upper holder block 11, be provided with the first breach near the side of gap slot inner side, the first rotating shaft 145 is fixed between the two side of the first breach, and the first connector 142 upper ends are articulated with in this first rotating shaft 145, and can in the first breach, turn an angle; On lower lock block 12, be provided with the second breach near the side of gap slot inner side, the second rotating shaft 146 is fixed between the two side of the second breach, and the second connector 143 upper ends are articulated with in this second rotating shaft 146, and can in the second breach, turn an angle; The front end of STATEMENT OF FEDERALLY SPONSORED 144 stretches out slideway and the first connector 142 lower ends, the second connector 143 upper ends are hinged.In the time that STATEMENT OF FEDERALLY SPONSORED 144 promotes the first connector 142 and the second connector 143 and rotates, upper holder block 11 and lower lock block 12 move on guide post 13.

As preferably, thrust unit is cylinder 141, for the ease of the installation of cylinder 141 and simplify its structure, is provided with in the second side 102 of pedestal 10 installation cavity that is through to gap slot side, and cylinder 141 is fixedly installed in installation cavity with removably; The front end of STATEMENT OF FEDERALLY SPONSORED 144 is convex an abutting part, and the cylinder rod of cylinder 141 just supports with abutting part.Thus, in the time that cylinder 141 moves, its cylinder rod stretches out and promotes support division 1441, and then promotion STATEMENT OF FEDERALLY SPONSORED 144 is moved.

Be understandable that, thrust unit can adopt other modes to drive STATEMENT OF FEDERALLY SPONSORED 144, for example, and shown in Fig. 6, adopt the bevelled insertion section 147 of band, lower end, in STATEMENT OF FEDERALLY SPONSORED 144, be provided with the protuberance 1442 on inclined-plane, so, thrust unit drives insertion section 147 to move downward, the ramp effect of the inclined-plane of 147 lower ends, insertion section and protuberance 1442 upper ends, there is relative sliding, like this, can promote STATEMENT OF FEDERALLY SPONSORED 144 and move.

Or with reference to shown in Fig. 3 to Fig. 5, in the present embodiment, flexible restoring organ comprises with the screw rod 151 of plug 1511 and is sheathed on the back-moving spring 152 on screw rod 151, and screw rod 151 is fixedly connected with the rear end of STATEMENT OF FEDERALLY SPONSORED 144, and back-moving spring 152 is connected between the baffle plate 153 on plug 1511 and pedestal 10, so, in the time that cylinder 141 is not worked, under the effect of spring 152, make screw rod 151 produce a pulling force backward, gangbar is motion backward, and upper holder block 11 separates with 12 of lower lock blocks.

Be understandable that, flexible restoring organ can also adopt other forms, in the time that cylinder 141 is not worked, provides an axial force to act in STATEMENT OF FEDERALLY SPONSORED 144, to keep upper holder block 11 to separate with lower lock block 12.

To sum up, laminating mechanism of the present utility model, can be used for workpiece to be fixed etc., and this workpiece can be for example for being set on the sleeve pipe on enamel-covered wire, fixing for the ease of sleeve pipe in application, on upper holder block 11 and lower lock block 12, correspondence is provided with sleeve pipe standing groove 121.

With reference to Fig. 7, Fig. 8, and in conjunction with shown in Fig. 1 to Fig. 5, the present embodiment provides the sleeve-penetrating equipment of laminating mechanism 100 in a kind of embodiment of use mono-, be used in conjunction with coil winding machine, coil winding machine has a bobbin, comprise holder 200, axis movement platform 300, be arranged on axis movement platform 300 in order to carry the wire agency 500 of enamel-covered wire, in order to the tube feeding mechanism 400 of delivery cannula, the laminating mechanism 100 being fixed in order to the sleeve pipe that described tube feeding mechanism 400 is exported, in order to the tube cutting mechanism 700 that the sleeve pipe entering in laminating mechanism 100 is cut off, and tangent mechanism 600 in order to the enamel-covered wire that is installed with sleeve pipe is cut off,

Wherein, laminating mechanism 100 adopts the laminating mechanism 100 in embodiment mono-, this laminating mechanism 100 is mounted slidably on described axis movement platform 300, and drive this laminating mechanism 100 to travel to and fro between in primary importance and the second place by a drive unit, the upper surface of the lower surface of upper holder block 11 and lower lock block 12 is provided with relative sleeve pipe standing groove 121, as preferably, this sleeve pipe standing groove 121 is V-type; In the time that laminating mechanism 100 is positioned at primary importance, sleeve pipe standing groove 121 is relative with the output of tube feeding mechanism 400, so that sleeve pipe enters sleeve pipe standing groove 121; In the time that laminating mechanism 100 is positioned at the second place, sleeve pipe standing groove 121 is relative with the output of wire agency 500, so that enamel-covered wire enters sleeve pipe standing groove 121 and passes the sleeve pipe in sleeve pipe standing groove 121.

Tube feeding mechanism 400, wire agency 500, tube cutting mechanism 700, tangent mechanism 600 and position relationship etc. are prior art, specifically referring to CN203304860U, are not repeated at this.

In some preferred embodiments, this drive unit specifically can adopt and drive cylinder 120 and slide track component 110(guide rail and slide block) structure that coordinates, the pedestal 10 of laminating mechanism 100 is fixed on guide assembly, drive the cylinder rod of cylinder 120 to be fixedly connected with pedestal 10 or slide block, what so, driving cylinder 120 was done by cylinder stretches and can push whole laminating mechanism 100 to primary importance and the second place.

Further, primary importance and second place correspondence are provided with block 130, so, in the time driving cylinder 120 to drive laminating mechanism 100 to arrive primary importance/second place, its position is more accurate, avoid because of the factors such as inertia cause laminating mechanism 100 can accurately be in primary importance/second place.

In other preferred embodiments, in order to regulate laminating mechanism 100 when the primary importance, the maximal clearance 103 of opening between upper holder block 11 and lower lock block 12, can on axis movement platform 300, be installed with a support member in 102 positions, the second side near pedestal 10, preferably, this support member adopts a vertical bar blocks, be provided with a double-screw bolt in described support member, one end of double-screw bolt has one for gripping the knob of this double-screw bolt of rotation, the rear end end face of the other end and STATEMENT OF FEDERALLY SPONSORED 144 offsets, thus, by rotation knob make screw rod 151 front ends near or away from STATEMENT OF FEDERALLY SPONSORED 144 rear ends, the distance that regulates STATEMENT OF FEDERALLY SPONSORED 144 to move backward, the distance that STATEMENT OF FEDERALLY SPONSORED 144 is moved has backward determined the angle between the first connector 142 and the second connector 143, angle between the first connector 142 and the second connector 143 has limited the maximum displacement that upper holder block 11 and lower lock block 12 move up and down, finally reach the object that regulates the maximal clearance 103 between upper holder block 11 and lower lock block 12.For example: when the screw rod 151 that makes of rotation knob is during to gangbar direction approximation, the distance that gangbar is drawn back just reduces, the maximum angle of the first connector 142 and the second connector 143 just reduces, and the maximal clearance 103 between upper holder block 11 and lower lock block 12 just reduces; On the contrary, when the screw rod 151 that makes of rotation knob is during away from gangbar, the distance that gangbar is drawn back just increases, and the maximum angle of the first connector 142 and the second connector 143 just increases, and the maximal clearance 103 between upper holder block 11 and lower lock block 12 is just larger.

In concrete use procedure, under original state, laminating mechanism 100 is at the pipe end that goes out of tube feeding mechanism 400, now upper holder block 11 keeps maximal clearance 103 with lower lock block 12, tube feeding mechanism 400 first send pipe in laminating mechanism 100, the sleeve pipe that tube feeding mechanism 400 is exported enters the sleeve pipe standing groove 121 of laminating mechanism 100, move by cylinder 141 again, drive upper holder block 11 and lower lock block 12 synchronization actions that sleeve pipe is pressed in sleeve pipe standing groove 121, logical tube cutting mechanism 700 cuts off this sleeve pipe again, unnecessary sleeve pipe is return by tube feeding mechanism 400, subsequently, pressure pipe structure is displaced to the leading-out terminal of wire agency 500 again, again through wire agency 500 line sendings, make enamel-covered wire pass the sleeve pipe in pressure pipe structure, cylinder 141 unclamps, upper holder block 11 separates with lower lock block 12 resets, laminating mechanism 100 is back to the pipe end that of tube feeding mechanism 400, realize automatic casing, single cycle finishes.

Owing to adopting laminating mechanism 100 to adopt structure described in embodiment mono-, laminating mechanism 100 adopt upper holder block 11 and lower lock block 12 locking phases to or counter motion, so that upper holder block 11 is fitted or separates with lower lock block 12, so, use the sleeve-penetrating equipment of this laminating mechanism 100, sleeve pipe standing groove 121 centers that can ensure laminating mechanism 100 are constant, no matter casing diameter is much, in threading process, the leading-out terminal of sleeve pipe center and wire agency 500 always remains on same axis, avoid the sleeve pipe of different-diameter, need to repeatedly regulate problems such as proofreading and correct wire agency 500 leading-out terminal height, improve the efficiency of production and processing, simultaneously, also make the leading-out terminal contraposition of sleeve pipe center and wire agency 500 more accurate.

The foregoing is only preferred embodiment of the present utility model; not thereby limit the scope of the claims of the present utility model; every equivalent structure or conversion of equivalent flow process that utilizes the utility model description and accompanying drawing content to do; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (10)

1. a laminating mechanism, is characterized in that, it comprises:

Pedestal, described pedestal has the first relative side and the second side, and described the first side is provided with a gap slot;

Upper holder block and lower lock block, described upper holder block and lower lock block are stacked to be arranged in described gap slot, and can vertically be set in slidably on guide post, and described guide post and described pedestal are fixed;

Driving mechanism, in order to drive described upper holder block and lower lock block locking phase to or counter motion so that upper holder block and lower lock block laminating or separate.

2. laminating mechanism according to claim 1, is characterized in that: also comprise in the time that driving mechanism is not worked, make described upper holder block keep with lower lock block the flexible restoring organ separating.

3. laminating mechanism according to claim 2, is characterized in that: described driving mechanism comprises the first connector, the second connector and thrust unit,

One end of described the first connector is hinged by the first rotating shaft and described upper holder block, and one end of described the second connector is hinged by the second rotating shaft and described lower lock block;

The other end and a STATEMENT OF FEDERALLY SPONSORED of described the first connector and the second connector are hinged, and the first connector and the second connector shape have angle;

Described STATEMENT OF FEDERALLY SPONSORED is connected with described thrust unit, and described thrust unit is fixed on described pedestal.

4. laminating mechanism according to claim 3, is characterized in that: described the second side is provided with the slideway that is through to described gap slot side, and described STATEMENT OF FEDERALLY SPONSORED is mounted slidably in described slideway;

On described upper holder block, be provided with the first breach near the side of described gap slot inner side, described the first rotating shaft is fixed between the two side of described the first breach; On described lower lock block, be provided with the second breach near the side of described gap slot inner side, described the second rotating shaft is fixed between the two side of described the second breach.

5. laminating mechanism according to claim 4, is characterized in that: described thrust unit is cylinder,

Described the second side is provided with the installation cavity that is through to described gap slot side, and described cylinder is fixedly installed in described installation cavity;

The front end of described STATEMENT OF FEDERALLY SPONSORED is convex an abutting part, and the cylinder rod of described cylinder and described abutting part support.

6. laminating mechanism according to claim 4, it is characterized in that: described flexible restoring organ comprises with the screw rod of plug and is sheathed on the back-moving spring on described screw rod, described screw rod is fixedly connected with the rear end of described STATEMENT OF FEDERALLY SPONSORED, and described back-moving spring is connected between described plug and pedestal.

7. a sleeve-penetrating equipment, it comprises axis movement platform and is arranged on axis movement platform in order to carry the wire agency of enamel-covered wire, in order to the tube feeding mechanism of delivery cannula, in order to the laminating mechanism that the sleeve pipe of described tube feeding mechanism output is fixed, in order to the tube cutting mechanism that the sleeve pipe entering in laminating mechanism is cut off

It is characterized in that: described laminating mechanism is mounted slidably on described axis movement platform, and drive this laminating mechanism to travel to and fro between in primary importance and the second place by a drive unit;

Described laminating mechanism comprises

Pedestal, described pedestal has the first relative side and the second side, and described the first side is provided with a gap slot;

Upper holder block and lower lock block, described upper holder block and lower lock block are stacked to be arranged in described gap slot, and can vertically be set in slidably on guide post, and described guide post and described pedestal are fixed; The lower surface of described upper holder block and the upper surface of lower lock block are provided with relative sleeve pipe standing groove;

Driving mechanism, in order to drive described upper holder block and lower lock block locking phase to or counter motion so that upper holder block and lower lock block laminating or separate;

In the time that laminating mechanism is positioned at primary importance, described sleeve pipe standing groove is relative with the output of described tube feeding mechanism, so that sleeve pipe enters sleeve pipe standing groove; In the time that laminating mechanism is positioned at the second place, described sleeve pipe standing groove is relative with the output of described wire agency, so that enamel-covered wire enters sleeve pipe standing groove and passes the sleeve pipe in sleeve pipe standing groove.

8. sleeve-penetrating equipment according to claim 7, is characterized in that: described driving mechanism comprises the first connector, the second connector and thrust unit,

One end of described the first connector is hinged by the first rotating shaft and described upper holder block, and one end of described the second connector is hinged by the second rotating shaft and described lower lock block;

The other end and a STATEMENT OF FEDERALLY SPONSORED of described the first connector and the second connector are hinged, and the first connector and the second connector shape have angle;

Described STATEMENT OF FEDERALLY SPONSORED is connected with described thrust unit, and described thrust unit is fixed on described pedestal.

9. sleeve-penetrating equipment according to claim 8, it is characterized in that: on described axis movement platform, be installed with a support member near described the second lateral location, be provided with a double-screw bolt in described support member, one end of described double-screw bolt has one for gripping the knob of this double-screw bolt of rotation, and the rear end end face of the other end and described STATEMENT OF FEDERALLY SPONSORED offsets.

10. sleeve-penetrating equipment according to claim 9, is characterized in that: described the second side is provided with the slideway that is through to described gap slot side, and described STATEMENT OF FEDERALLY SPONSORED is mounted slidably in described slideway;

On described upper holder block, be provided with the first breach near the side of described gap slot inner side, described the first rotating shaft is fixed between the two side of described the first breach; On described lower lock block, be provided with the second breach near the side of described gap slot inner side, described the second rotating shaft is fixed between the two side of described the second breach.