CN207388340U - A kind of clamp assemblies - Google Patents

Abstract

The utility model discloses a kind of clamp assemblies, main points are：Including self-clamping module retainer plate, retainer plate upper cover plate, retainer plate lower cover, the first synchronous fixture block and the second synchronous fixture block；Self-clamping module retainer plate is integrally shelly-shaped in cylinder；Self-clamping module retainer plate is radially equipped with the feeding port inside and outside it；Retainer plate upper cover plate is fixed in sector, retainer plate upper cover plate on self-clamping module retainer plate top；Retainer plate lower cover is fixed in sector, retainer plate lower cover on self-clamping module retainer plate lower part；First synchronous fixture block and the second synchronous fixture block are rotatably arranged on by its respective rotating junction between retainer plate upper cover plate and retainer plate lower cover, are formed clamp structure, and are rotated synchronously movement；Compression spring is equipped between first push rod portion of the first synchronous fixture block and the second push rod portion of the second synchronous fixture block, the first synchronous fixture block and the second synchronous fixture block is made to be in clamp position.

Description

A kind of clamp assemblies

Technical field

The utility model is related to Medical Devices manufacture fields, and in particular to a kind of automatic assembling for assembling piston syringe Clamp assemblies in system.

Background technology

Syringe is a kind of common medical instruments.Syringe is by the foraminate syringe of front end band and matching work Fill in core bar composition, for by a small amount of liquid or its be injected into region that other methods can not approach or taken out from those places Go out, either gas is sucked when core bar is pushed into from syringe front end aperture by liquid or gas liquid when core bar is extracted It squeezes out.The quality of syringe quality is largely dependent on the leakproofness between syringe and piston core pin.In order to improve using peace Quan Xing avoids cross-infection, and now mostly using disposable injection device, in order to cost-effective, disposable injection device mostly uses Plastic material is made, and has used and has just abandoned.Generally for the leakproofness improved between syringe and piston core pin, it is necessary in piston core The head of bar sets an O-ring seal.Manual assembly needs that O-ring seal be first sleeved on to the head of piston core pin, then by piston Core bar is inserted into syringe, so assembles not only less efficient but also unhygienic.

Utility model content

The purpose of this utility model is to provide a kind of simple in structure, is conducive to improve injecting for piston type for efficiency of assembling Clamp assemblies in the automatic setup system of device assembling.

Realizing the basic technical scheme of the utility model aim is：A kind of clamp assemblies, are structurally characterized in that：Including clamping Module retainer plate, retainer plate upper cover plate, retainer plate lower cover, the first synchronous fixture block and the second synchronous fixture block.Self-clamping module is fixed Circle is whole shelly-shaped in cylinder.Self-clamping module retainer plate is radially equipped with the feeding port inside and outside it.Retainer plate upper cover plate is in Sector, retainer plate upper cover plate are fixed on self-clamping module retainer plate top.Retainer plate lower cover is in sector, retainer plate lower cover Plate is fixed on self-clamping module retainer plate lower part.First synchronous fixture block and the second synchronous fixture block are rotatably arranged on retainer plate Between cover board and retainer plate lower cover, clamp structure is formed, and rotates synchronously movement.

Technical solution based on above-mentioned basic technical scheme is：Self-clamping module retainer plate one side is equipped with inside and outside it Fixture block escape groove.The self-clamping module retainer plate one side opposite with fixture block escape groove is equipped with the fixture block push rod slot inside and outside it.

The structure of first synchronous fixture block and the second synchronous fixture block is essentially identical.First synchronous fixture block one end is equipped with the first clamping Portion, middle part are the first rotating junction, and the other end is equipped with the first push rod portion.First clamping part is equipped with the first guiding surface and the One holding tank.First rotating junction is equipped with the first synchronous gear.Second synchronous fixture block one end is equipped with the second clamping part, and middle part is Second rotating junction, the other end are equipped with the second push rod portion.Second clamping part is equipped with the second guiding surface and the second holding tank. Second rotating junction is equipped with the second synchronous gear.

The of second clamping part of the first guiding surface of the first clamping part of the first synchronous fixture block and the second synchronous fixture block The V-arrangement clamping guide groove of outward opening is collectively formed in two guiding surfaces.

The second of second clamping part of the first holding tank of the first clamping part of the first synchronous fixture block and the second synchronous fixture block Holding holes are collectively formed in holding tank.

Second rotation connection of the first synchronous gear of the first rotating junction of the first synchronous fixture block and the second synchronous fixture block Second synchronous gear in portion is meshed.

First synchronous fixture block and the second synchronous fixture block are rotatably arranged on retainer plate upper cover by its respective rotating junction Between plate and retainer plate lower cover, clamp structure is formed, and rotates synchronously movement.First push rod portion of the first synchronous fixture block and the Compression spring is equipped between second push rod portion of two synchronous fixture blocks, the first synchronous fixture block and the second synchronous fixture block is made to be in clamping shape State.

The corresponding site of second clamping part of the first clamping part of the first synchronous fixture block and the second synchronous fixture block is located at clamping In the fixture block escape groove of module retainer plate.

Technical solution based on above-mentioned basic technical scheme is：It is additionally provided on first clamping part of the first synchronous fixture block First receptacle slot.The second receptacle slot is additionally provided on second clamping part of the second synchronous fixture block.First clamping of the first synchronous fixture block Corresponding jack is collectively formed in second receptacle slot of the second clamping part of the first receptacle slot fixture block synchronous with second in portion.

The utility model has positive effect：（1）O in the automatic setup system for syringe of the utility model Clamp assemblies are simple in structure, can clamp the piston core pin of syringe, can also clamp the syringe of syringe, and applicable ability is strong, and Easy access can greatly improve efficiency of assembling, and be avoided that human contact, relatively sanitary.

（2）First clamping of the synchronous fixture block of the first of the clamp assemblies of the automatic setup system of the syringe of the utility model The V-arrangement of outward opening is collectively formed in second guiding surface of the second clamping part of first guiding surface in portion and the second synchronous fixture block Guide groove is clamped, is conducive to syringe or piston is smoothly slipped into holding holes.

（3）First clamping of the synchronous fixture block of the first of the clamp assemblies of the automatic setup system of the syringe of the utility model Corresponding jack, piston dress is collectively formed in second receptacle slot of the second clamping part of the first receptacle slot fixture block synchronous with second in portion The left side plate of the left side punch assembly of distribution assembly can be inserted into the jack, play the first synchronous fixture block and the second synchronous fixture block It opens, clamp assemblies and the second rotation connection disk of piston transfer assembly is passed down through convenient for piston core pin, so as to be transferred to syringe In, it is easy to use.

（4）The first of the synchronous fixture block of the first of the clamp assemblies of the automatic setup system of the syringe of the utility model rotates Second synchronous gear of the second rotating junction of the first synchronous gear of connecting portion and the second synchronous fixture block is meshed, it is ensured that synchronous to beat It opens or is closed；Compression spring is equipped between first push rod portion of the first synchronous fixture block and the second push rod portion of the second synchronous fixture block, The first synchronous fixture block and the second synchronous fixture block is made to be in clamp position, can effectively be clamped piston core pin or syringe.

Description of the drawings

Fig. 1 is the structure diagram using the automatic setup system of the syringe of the clamp assemblies of the utility model；

Fig. 2 is the schematic rear view of Fig. 1；

Fig. 3 is the left view schematic diagram of Fig. 1；

The right side that Fig. 4 is Fig. 1 regards schematic diagram；

Fig. 5 is the schematic top plan view of Fig. 1；

Fig. 6 is the elevational schematic view of Fig. 1；

Fig. 7 is the schematic cross-sectional view of O-ring assembling assembly；

Fig. 8 is the schematic top plan view of the O-ring assembling assembly of Fig. 7；

Fig. 9 is the schematic diagram of the first shell of O-ring assembling assembly in Fig. 7, upper cover plate and lower cover；

Figure 10 is the schematic diagram of the O-ring expansion pawl in Fig. 7；

Figure 11 is the structure diagram of clamp assemblies；

Figure 12 is the structure diagram of the synchronous fixture block in Figure 11.

Mark in above-mentioned attached drawing is as follows：

Rack 1,

O-ring assembling assembly 2, the first shell 2-1,

Upper cover plate 2-2, the first center through hole 2-2-1, the first hole section 2-2-1a, the second hole section 2-2-1b, O-ring filling slot 2-2-2,

Lower cover 2-3,

Apotting spindle 2-4, mandrel guide surface 2-4-1,

O-ring expands pawl 2-5, struts portion 2-5a,

Guide part 2-5b, guide part guide surface 2-5b-1,

Be located by connecting portion 2-5c, the first card slot 2-5c-1, the second card slot 2-5c-2, the 3rd locating groove 2-5c-3,

Bracing ring 2-6 is positioned,

Clamp assemblies 3, self-clamping module retainer plate 3-1, fixture block escape groove 3-1a, fixture block push rod slot 3-1b,

Retainer plate upper cover plate 3-2, retainer plate lower cover 3-3,

First synchronous fixture block 3-4, the first clamping part 3-4-1, the first guiding surface 3-4-1a, the first holding tank 3-4-1b, The first receptacle slot synchronous gear of 3-4-1c, the first rotating junction 3-4-2, first 3-4-2a, the first push rod portion 3-4-3,

Second synchronous fixture block 3-5, the second clamping part 3-5-1, the second guiding surface 3-5-1a, the second holding tank 3-5-1b, The second receptacle slot synchronous gear of 3-5-1c, the second rotating junction 3-5-2, second 3-5-2a, the second push rod portion 3-5-3,

O-ring loading assemblies 4, loading plate 4-1, feeding hole 4-1-1, feeding motor 4-2, rod for stiring materials 4-3, axle sleeve 4-4 turn Moving axis 4-5,

O-ring transfer assembly 5, the first rotation connection disk 5-1, O-ring assembling installation bore 5-1a, the first rotation axis 5-2, First drive gear 5-3,

Piston transfer assembly 6, the second rotation connection disk 6-1, clamp assemblies installation bore 6-1a, piston feed inlet 6-1b, Second rotation axis 6-2,

Piston assembling assembly 7, the first fixing axle 7-1, the first mounting base 7-2, the first lifting axis 7-3,

Left side stamping connection arm 7-4, left side waist-shaped hole 7-4-1, Left-side support regulating arm 7-5,

Right side connects stamping arm 7-6, right side waist-shaped hole 7-6-1, Right side support regulating arm 7-7,

Left side punch assembly 7-8, left side punching press arm seat 7-8-1, left side stamping arm slot 7-8-1a, left side stamping arm 7-8-2, Left side punching press resetting spring 7-8-3, left side plate 7-8-4,

Right side punch assembly 7-9, right side punching press arm seat 7-9-1, right side stamping arm slot 7-9-1a, right side stamping arm 7-9-2, Right side punching press promotes pawl 7-9-2a, right side punching press resetting spring 7-9-3,

Syringe transfer assembly 8, the 3rd rotation connection disk 8-1, the installation of syringe clamp assemblies bore 8-1a, syringe feed inlet 8- 1b, the 3rd rotation axis 8-2,

Assembling assembly 9 is detected,

Assembling assembly 9a assembles fixing axle 9a-1, assembles mounting base 9a-2, assembles lifting axis 9a-3, assembles stamping connection Arm 9a-4,

Assembling support regulating arm 9a-5, assembles punching press arm seat 9a-6, assembles stamping arm slot 9a-6-1, assembling stamping arm 9a- 7,

Infrared detection component 9b, waste product push plate 9c,

Finished product discharging device 9d, discharge gear 9d-1, discharging pushing pedal 9d-2, and discharge driving motor 9d-3,

Drive component 10 is lifted, lifting motor 10-1, the first lifting cam 10-2, second lifts cam 10-3,

Synchronous drive component 11, synchronous driving motor 11-1, synchronous belt 11-2,

Syringe plug 12,

Syringe 100, syringe 100-1, piston core pin 100-2.

Specific embodiment

The description in the orientation of the utility model is carried out according to orientation shown in FIG. 1 namely direction up and down shown in FIG. 1 The direction up and down as described, a side of court of Fig. 1 institutes is front, and the side away from Fig. 1 is rear.The component of rotation is to lean on One side of nearly rotation axis is known as inside, is known as outside with the side away from rotation axis.

（Embodiment 1）

See Figure 10 and Figure 11, clamp assemblies 3 are included under self-clamping module retainer plate 3-1, retainer plate upper cover plate 3-2, retainer plate Cover board 3-3, the first synchronization fixture block 3-4 and the second synchronous fixture block 3-5.

Self-clamping module retainer plate 3-1 is integrally shelly-shaped in cylinder.Self-clamping module retainer plate 3-1 is radially equipped in it Outer feeding port 3-1-1.Self-clamping module retainer plate 3-1 one sides are equipped with the fixture block escape groove 3-1a inside and outside it.Self-clamping module One side opposite with fixture block escape groove 3-1a retainer plate 3-1 is equipped with the fixture block push rod slot 3-1b inside and outside it.

The structure of the synchronous fixture block 3-5 of first synchronization fixture block 3-4 and second is essentially identical.First synchronization fixture block 3-4 one end is set There is the first clamping part 3-4-1, middle part is the first rotating junction 3-4-2, and the other end is equipped with the first push rod portion 3-4-3.First folder Portion 3-4-1 is held equipped with the first guiding surface 3-4-1a, the first holding tank 3-4-1b and the first receptacle slot 3-4-1c.First rotates Connecting portion 3-4-2 is equipped with the first synchronous gear 3-4-2a.Second synchronization fixture block 3-5 one end is equipped with the second clamping part 3-5-1, middle part For the second rotating junction 3-5-2, the other end is equipped with the second push rod portion 3-5-3.Second clamping part 3-5-1 is equipped with second and is oriented to Inclined-plane 3-5-1a, the second holding tank 3-5-1b and the second receptacle slot 3-5-1c.It is same that second rotating junction 3-5-2 is equipped with second Walk tooth 3-5-2a.

The synchronous fixture block 3-5 of the first guiding surface 3-4-1a and second of the first clamping part 3-4-1 of first synchronous fixture block 3-4 The second clamping part 3-5-1 the second guiding surface 3-5-1a be collectively formed outward opening V-arrangement clamping guide groove.

The synchronous fixture block 3-5's of the first holding tank 3-4-1b and second of the first clamping part 3-4-1 of first synchronous fixture block 3-4 Holding holes are collectively formed in the second holding tank 3-5-1b of second clamping part 3-5-1.

The synchronous fixture block 3-5's of the first receptacle slot 3-4-1c and second of the first clamping part 3-4-1 of first synchronous fixture block 3-4 Corresponding jack is collectively formed in the second receptacle slot 3-5-1c of second clamping part 3-5-1.

The synchronous fixture blocks of the first synchronous gear 3-4-2a and second of the first rotating junction 3-4-2 of first synchronous fixture block 3-4 The second synchronous gear 3-5-2a of the second rotating junction 3-5-2 of 3-5 is meshed.

Retainer plate upper cover plate 3-2 is fixed at self-clamping module retainer plate 3-1 tops in sector, retainer plate upper cover plate 3-2 On.Retainer plate lower cover 3-3 is fixed in sector, retainer plate lower cover 3-3 on self-clamping module retainer plate 3-1 lower parts.The One synchronization fixture block 3-4 and the second synchronization fixture block 3-5 are rotatably arranged on retainer plate upper cover plate 3-2 by its respective rotating junction Between retainer plate lower cover 3-3, clamp structure is formed, and rotates synchronously movement.The first push rod portion of first synchronous fixture block 3-4 Compression spring is equipped between the second push rod portion 3-5-3 of the synchronous fixture block 3-5 of 3-4-3 and second, makes the first synchronization fixture block 3-4 and the Two synchronization fixture block 3-5 are in clamp position.

The second clamping part 3-5-1's of the synchronous fixture block 3-5 of the first clamping part 3-4-1 and second of first synchronous fixture block 3-4 Corresponding site is located in the fixture block escape groove 3-1a of self-clamping module retainer plate 3-1.

The the first rotating junction 3-4-2 and the first push rod portion 3-4-3 and the second synchronous fixture block of first synchronous fixture block 3-4 The corresponding site of the second rotating junction 3-5-2 of 3-5 and the second push rod portion 3-5-3 are located at self-clamping module retainer plate 3-1, fixation It encloses between upper cover plate 3-2 and retainer plate lower cover 3-3.

（Application examples 1）

See Fig. 1 to Figure 12, the automatic setup system using the syringe of the clamp assemblies of the utility model includes rack 1, O Type circle assembling assembly 2, clamp assemblies, O-ring loading assemblies 4, O-ring transfer assembly 5, piston transfer assembly 6, piston assembling group Part 7, syringe transfer assembly 8, detection assembling assembly 9, lifting drive component 10, synchronous drive component 11 and syringe plug 12.Folder Component is held using the clamp assemblies 3. described in embodiment 1

See Fig. 7 to Figure 10, O-ring assembling assembly 2 includes the first shell 2-1, upper cover plate 2-2, lower cover 2-3, the positioning heart Axis 2-4, O-ring expand pawl 2-5, positioning bracing ring 2-6, clamp spring, O-shaped spring and flexibly positioned film.

First shell 2-1 is shelly-shaped in cylinder.Upper cover plate 2-2, which is screwed, to be fixed on the top of the first shell 2-1.Upper cover plate 2- 2 middle parts are equipped with the first center through hole 2-2-1 above and below it.First center through hole 2-2-1 is equipped with first successively from top to bottom Hole section 2-2-1a and the second hole section 2-2-1b.Second hole section 2-2-1b is up-small and down-big truncated cone-shaped hole.Second hole section 2-2-1b Top aperture be less than the aperture of the first hole section 2-2-1a, so as to top and the first hole section 2-2-1a of the second hole section 2-2-1b O-ring filling slot 2-2-2 is formed between lower part.Lower cover 2-3, which is screwed, to be fixed on the lower part of the first shell 2-1.

Apotting spindle 2-4 is fixed at the center of lower cover 2-3 vertically, is coaxially disposed with the first shell 2-1.Position the heart Axis 2-4 tops corresponding site is located in the second hole section 2-2-1b of the first center through hole 2-2-1 of upper cover plate 2-2.Apotting spindle 2-4 tops are circumferentially with mandrel guide surface 2-4-1 along it.

O-ring, which expands pawl 2-5,3 to 20, and the present embodiment is 10.Each O-ring expansion pawl 2-5 structures are identical, surround Apotting spindle 2-4 tops are set, and formation can be with distracted structure.Each O-ring expands the outside of pawl 2-5 in arc-shaped, each O-ring It expands the lateral surface corresponding portion after pawl 2-5 is bolted together and forms complete cylindrical side or frustum cone side.Each O-ring is expanded The inside of pawl 2-5 is in arc-shaped, and each O-ring expands the medial surface corresponding portion after pawl 2-5 is bolted together and forms complete circle Column side or frustum cone side.

O-ring, which is expanded pawl 2-5 and is equipped with successively from top to bottom, struts portion 2-5a, guide part 2-5b and the portion 2-5c that is located by connecting. The number of degrees for strutting the angle β of the lateral surface of portion 2-5a and the lateral surface of guide part 2-5b add the second hole section 2- of upper cover plate 2-2 The number of degrees of the inner wall of 2-1b and the angle α of vertical guide are more than or equal to 180 degree.The inside of guide part 2-5b is equipped with and apotting spindle 2- The 4 corresponding guide part guide surface 2-5b-1 of mandrel guide surface 2-4-1.

The upper outside that O-ring expands the portion 2-5c that is located by connecting of pawl 2-5 is equipped with the first card slot 2-5c-1, lower outside is set There is the second card slot 2-5c-2.O-shaped spring is arranged on each O-ring and expands in the first card slot 2-5c-1 of pawl 2-5, and each O-ring is opened up Open up pawl 2-5 tops elastic spacing together.Clamp spring is arranged on each O-ring and expands in the second card slot 2-5c-2 of pawl 2-5, by each O Type circle expands the /V of pawl 2-5 lower elastics together.The lower inside that O-ring expands the portion 2-5c that is located by connecting of pawl 2-5 is equipped with 3rd locating groove 2-5c-3.Positioning bracing ring 2-6 is slidably arranged on apotting spindle 2-4, and corresponding site is located at each O-ring It expands in the 3rd locating groove 2-5c-3 of pawl 2-5.Compression spring is additionally provided on apotting spindle 2-4, compression spring is located at positioning Between bracing ring 2-6 and lower cover 2-3, each O-ring expansion pawl 2-5 is pushed up upwards by positioning bracing ring 2-6, it is made to strut portion 2-5a is in tightening state.It struts the top outer diameter of portion 2-5a less than O-shaped when each O-ring expansion pawl 2-5 is in tightening state The internal diameter of circle.Flexibly positioned film is fixed on the upside of upper cover plate 2-2 and sets, and flexibly positioned film center is equipped with above and below it Elastic membrane through hole, the aperture of elastic membrane through hole is less than the outer diameter of O-ring, for O-ring to be held, makes to fall into O-ring expansion pawl On 1 O-ring upper surface and loading plate 4-1 bottom surface on the downside of it is equal, so as to each O of each O-ring assembling assembly 2 every time Type circle, which expands pawl 2-5, can only fall into 1 O-ring.

See Fig. 1, Fig. 2, Fig. 4, Fig. 5 and Fig. 6, O-ring loading assemblies 4 include loading plate 4-1, feeding motor 4-2 and material toggling Bar 4-3.Loading plate 4-1 is equipped with 1 or 2 or 4 feeding hole 4-1-1, and the present embodiment is 4,4 feeding hole 4-1-1's Aperture is corresponding with the outer diameter of O-ring.Loading plate 4-1 is set by the horizontal fixations of the axle sleeve 4-4 vertically set accordingly It puts on the right part of rack 1.Feeding motor 4-2 is fixed in rack 1.Rod for stiring materials 4-3 by pass through the axle sleeve 4-4 and The rotation axis 4-5 being rotatably arranged in rack, which horizontally rotates, to be arranged in loading plate 4-1, and the rotation is driven by feeding motor 4-2 Axis 4-5 is rotated and then rod for stiring materials 4-3 is driven to rotate.The downside of rod for stiring materials 4-3 makes with being in contact on the upside of the bottom surface of loading plate 4-1 Used time rod for stiring materials 4-3 promotes the O-ring movement in loading plate 4-1, is fallen into when corresponding O-ring moves to feeding hole 4-1-1 In the 4-1-1 of feeding hole, remaining then continues to move in loading plate 4-1.

See Fig. 1 to Fig. 6, O-ring transfer assembly 5 includes the first rotation connection disk 5-1 and the first rotation axis 5-2.First turn For moving axis 5-2 vertically to being rotatably arranged on vertically on the right part of rack 1, the first rotation connection disk 5-1 passes through the first rotation axis 5-2 Horizontally rotate and be arranged on the right part of rack 1, positioned at the lower left side of loading plate 4-1.The upper surface of first rotation connection disk 5-1 It is in contact with the lower surface of loading plate 4-1.It is O-shaped equipped with 6 to 30 along its circumferential angle at equal intervals on first rotation connection disk 5-1 Circle assembling installation bore 5-1a, the present embodiment is 10.1 O-ring dress is equipped at each O-ring assembling installation bore 5-1a Distribution assembly 2.O-ring assembling assembly 2 is coaxially fixed at corresponding O-ring assembling installation on the downside of the first rotation connection disk 5-1 At bore 5-1a, each O-ring of O-ring assembling assembly 2 expands the top highest point of pawl 2-5 no more than the first rotation connection disk 5- 1 upper surface.First rotation axis 5-2 lower parts are fixed with the first drive gear 5-3 and the first transmission gear, the first transmission gear Positioned at the upside of the first drive gear 5-3.

The rotation that the center of the feeding hole 4-1-1 of the loading plate 4-1 of O-ring loading assemblies 4 is rotatablely connected disk 5-1 to first The distance of axis is equal to the axis of O-ring assembling assembly 2 to the distance of the pivot center of the first rotation connection disk 5-1 namely O-shaped The center of the feeding hole 4-1-1 of the loading plate 4-1 of loading assemblies 4 is enclosed to the distance of the pivot center of the first rotation connection disk 5-1 Equal to the center that O-ring assembles installation bore 5-1a to the distance of the pivot center of the first rotation connection disk 5-1, so as to O-ring Each O-ring that corresponding O-ring assembling assembly 2 is dropped down onto by feeding hole 4-1-1 expands pawl 2-5, and O-ring is flexibly positioned at this time Film is held, and upper side is equal on the downside of the bottom surface of loading plate 4-1.

See Fig. 1 to Fig. 6, piston transfer assembly 6 includes the second rotation connection disk 6-1 and the second rotation axis 6-2.Second rotates Terminal pad 6-1 is horizontally rotated by the second rotation axis 6-2 to be arranged on the left part of rack 1, positioned at the first rotation connection disk 5-1's Upper left-hand.On second rotation connection disk 6-1 quantity and O-ring assembling installation bore 5-1a are equipped with along its circumferential angle at equal intervals The identical clamp assemblies installation bore 6-1a of quantity, the present embodiment is 10.Second rotation connection disk 6-1, which is radially equipped with, to be passed through Logical each clamp assemblies installation bore 6-1a and external piston feed inlet 6-1b.It is all provided at each clamp assemblies installation bore 6-1a There is 1 clamp assemblies 3.Clamp assemblies 3 are fixed at corresponding clamp assemblies installation bore on the downside of the second rotation connection disk 6-1 At 6-1a, the V-arrangement clamping guide groove setting corresponding with piston feed inlet 6-1b of clamp assemblies 3, the second rotation connection disk 6-1's Pivot center the first synchronous fixture block 3-4 of clamp assemblies 3 the first clamping part 3-4-1 fixture block 3-5s synchronous with second second In the face that clamping part 3-5-1 is in contact.Have the holding holes of 1 group of clamp assemblies 3 and corresponding 1 group of O-ring assembling assembly 2 coaxial or The holding holes of 2 groups of clamp assemblies 3 and corresponding 2 groups of O-ring assembling assemblies 2 are coaxial, and the present embodiment is the folder of 2 groups of clamp assemblies 3 It holds hole and corresponding 2 groups of O-ring assembling assemblies 2 is coaxial.

Second rotation axis 6-2 is equipped with the central through hole above and below it along its axis.Second rotation axis 6-2 lower parts are equipped with the Two transmission gears.

See Fig. 1 to Fig. 6, piston assembling assembly 7 includes the first fixing axle 7-1, the first mounting base 7-2, the first lifting axis 7- 3rd, left side stamping connection arm 7-4, Left-side support regulating arm 7-5, right side stamping connection arm 7-6, Right side support regulating arm 7-7, a left side Side punch assembly 7-8 and right side punch assembly 7-9.

First fixing axle 7-1 is fixed in rack 1, and passes through the second rotation axis 6- of piston transfer assembly 6 up and down 2.First mounting base 7-2 levels are fixed on the top of the first fixing axle 7-1.First fixing axle 7-1 is equipped with along its axis Central through hole above and below it.First lifting axis 7-3 is slidably arranged in the central through hole of the first fixing axle 7-1, and up and down It stretches out outside the first fixing axle 7-1.

One end of left side stamping connection arm 7-4 is rotatably connected on the upper end of the first lifting axis 7-3, and rotation axis is before and after To horizontally disposed.The left side waist-shaped hole 7-4-1 being equipped in the middle part of the stamping connection arm 7-4 of left side before and after it.Left-side support is adjusted Arm 7-5 is vertically arranged on the left part of the first mounting base 7-2, and can move left and right adjusting position.Left side stamping connection arm 7-4's The other end is divided into two ends.The upper end of Left-side support regulating arm 7-5 is slidably arranged in the waist-shaped hole 7-4-1 of left side, for propping up Support left side stamping connection arm 7-4, and adjusting supporting point position can be moved left and right along left side waist-shaped hole 7-4-1.

One end of right side stamping connection arm 7-6 is rotatably connected on the upper end of the first lifting axis 7-3, and rotation axis is before and after To horizontally disposed.The right side waist-shaped hole 7-6-1 being equipped in the middle part of the stamping connection arm 7-6 of right side before and after it.Right side support is adjusted Arm 7-7 is vertically arranged on the right part of the first mounting base 7-2, and can move left and right adjusting position.Right side stamping connection arm 7-6's The other end is divided into two ends.The upper end of Right side support regulating arm 7-7 is slidably arranged in the waist-shaped hole 7-6-1 of right side, for propping up Support right side stamping connection arm 7-6, and adjusting supporting point position can be moved left and right along right side waist-shaped hole 7-6-1.

Left side punch assembly 7-8 has 2 groups, and the structure of 2 groups of left side punch assembly 7-8 is identical, including left side punching press arm seat 7-8-1, left side stamping arm 7-8-2, left side punching press resetting spring 7-8-3 and left side plate 7-8-4.

2 groups of left side punch assembly 7-8 are used for clamp piston with 2 groups of coaxial arrangement respectively along front and rear to setting gradually The holding holes of clamp assemblies 3 of the holding holes of the clamp assemblies 3 of core bar with corresponding 2 groups for clamping syringe are corresponding.

Left side punching press arm seat 7-8-1 is fixed on the left part of the first mounting base 7-2.Left side punching press arm seat 7-8-1 edges Its axis is equipped with the left side stamping arm slot 7-8-1a through its left and right and top.

Left side stamping arm 7-8-2 is slidably arranged in the punching press arm seat 7-8-1 of left side.Left side stamping arm 7-8-2 tops are equipped with Blocking portion.

Piston core pin 100-2 is pressed into lower section phase by the upper end that left side stamping arm 7-8-2 first withstands downwards piston core pin 100-2 In the syringe 100-1 answered.

Left side plate 7-8-4 lower parts small big shape under being in, left side plate be fixed on the stamping arm 7-8-2 of left side and Left side stamping arm 7-8-2 is inserted into the first clamping part of the first synchronous fixture block 3-4 of corresponding clamp assemblies 3 when moving downwardly together The second receptacle slot 3-5-1c of the second clamping part 3-5-1 of the synchronous fixture block 3-5 of the first receptacle slot 3-4-1c of 3-4-1 and second is total to With opening, the synchronous fixture block 3-5 of the first synchronization fixture block 3-4 and second in the jack formed, worn downwards convenient for piston core pin 100-2 Cross clamp assemblies 3 and the second rotation connection disk 6-1 of piston transfer assembly 6.Left side punching press resetting spring 7-8-3 is arranged on left side On stamping arm 7-8-2, and between the downside of blocking portion and the first mounting base 7-2, in compressive state, for left side to be rushed Pressure arm 7-8-2 is pushed up upwards.Two ends of left side stamping arm 7-4 are located at a left side of corresponding one group left side punch assembly 7-8 respectively It in the left side stamping arm slot 7-8-1a of side blow pressure arm seat 7-8-1, can be slided up and down along the slot, for by left side stamping arm 7-8-2 It is pressed downward.

Right side punch assembly 7-9 has 2 groups, and the structure of 2 groups of right side punch assembly 7-9 is identical, including right side punching press arm seat 7-9-1, right side stamping arm 7-9-2 and right side punching press resetting spring 7-9-3.

2 groups of right side punch assembly 7-9 are along front and rear to setting gradually, and the folder with 2 groups of clamp assemblies 3 of coaxial arrangement respectively It holds hole and corresponding 2 groups of O-ring assembling assemblies 2 is corresponding.

Right side punching press arm seat 7-9-1 is fixed on the right part of the first mounting base 7-2.Right side punching press arm seat 7-9-1 edges Its axis is equipped with the right side stamping arm slot 7-9-1a through its left and right and top.

Right side stamping arm 7-9-2 is slidably arranged in the punching press arm seat 7-9-1 of right side.Right side stamping arm 7-9-2 tops are equipped with Blocking portion.Right side stamping arm 7-9-2 lower ends are equipped with right side punching press and promote pawl 7-9-2a, when right side punching press promotes pawl 7-9-2a uses The upper end piston handle rear distraction for first withstanding piston core pin 100-2 downwards is slipped on the downside of piston handle, continues to be pressed downward that piston can be made Core bar 100-2 is moved downward；Right side punching press is promoted to hook piston handle when pawl 7-9-2a resets upwards and carried upwards, piston core pin edge The circumferential movement of piston assembling assembly 7 skids off disengaging right side punching press and promotes pawl 7-9-2a.Right side punching press resetting spring 7-9-3 is set On the stamping arm 7-9-2 of right side, and between the downside of blocking portion and the first mounting base 7-2, in compressive state, for inciting somebody to action Right side stamping arm 7-9-2 is pushed up upwards.Two ends of right side stamping arm 7-4 are located at corresponding one group right side punch assembly 7- respectively It in the right side stamping arm slot 7-9-1a of 9 right side punching press arm seat 7-9-1, can be slided up and down along the slot, for by right side stamping arm 7-9-2 is pressed downward.

See Fig. 1 to Fig. 6, syringe transfer assembly 8 includes the 3rd rotation connection disk 8-1 and the 3rd rotation axis 8-2.3rd rotates Terminal pad 8-1 is horizontally rotated by the 3rd rotation axis 8-2 to be arranged on the left part of rack 1, positioned at the second rotation connection disk 6-1's Lower left side.On 3rd rotation connection disk 8-1 quantity and clamp assemblies installation bore 6-1a are equipped with along its circumferential angle at equal intervals The identical syringe clamp assemblies installation bore 8-1a of quantity, the present embodiment is 10.3rd rotation connection disk 8-1 is radially set Have and penetrate through each syringe clamp assemblies installation bore 8-1a and external syringe feed inlet 8-1b.Each syringe clamp assemblies mounting base 1 clamp assemblies 3 is equipped at the 8-1a of hole.Clamp assemblies 3 are fixed at corresponding syringe on the downside of the 3rd rotation connection disk 8-1 At clamp assemblies installation bore 8-1a, the V-arrangement clamping guide groove setting corresponding with syringe feed inlet 8-1b of clamp assemblies 3, the The pivot center of three rotation connection disk 8-1 is in the first clamping part 3-4-1 and second of the first synchronous fixture block 3-4 of clamp assemblies 3 In the face that the second clamping part 3-5-1 of synchronous fixture block 3-5 is in contact.There is 1 group of clamping group being located on the 3rd rotation connection disk 8-1 The holding holes for the clamp assemblies 3 that the holding holes of part 3 are located at corresponding 1 group on the second rotation connection disk 6-1 are coaxial or 2 groups are located at The folder that the holding holes of clamp assemblies 3 on 3rd rotation connection disk 8-1 are located at corresponding 2 groups on the second rotation connection disk 6-1 Hold that the holding holes of component 3 are coaxial, the holding holes for the clamp assemblies 3 that the present embodiment is located at for 2 groups on the 3rd rotation connection disk 8-1 with The holding holes of the corresponding 2 groups clamp assemblies 3 being located on the second rotation connection disk 6-1 are coaxial.

Syringe plug 12 has 2, and 2 syringe plugs 12 are fixed in rack 1, and is located at corresponding 2 groups the respectively The holding holes of clamp assemblies 3 on three rotation connection disk 8-1 and the clamp assemblies 3 on corresponding 2 group second rotation connection disk 6-1 Holding holes where axis on, the outlet of corresponding syringe 100-1 is blocked from below.

3rd rotation axis 8-2 is equipped with the central through hole above and below it along its axis.3rd rotation axis 8-2 lower parts are equipped with the Three transmission gears.

See Fig. 1 to Fig. 4 and Fig. 6, synchronous drive component 11 includes synchronous driving motor 11-1 and synchronous belt 11-2.By synchronization Driving motor 11-1 drives the first drive gear 5-3 of O-ring transfer assembly 5 to rotate by the gear on its motor shaft；It is synchronous With 11-2 around the first transmission gear of O-ring transfer assembly 5, the second transmission gear of piston transfer assembly 6 and syringe transfer 3rd transmission gear of component 8 is set, and equipped with corresponding Tension gear, so as to pass through synchronous driving motor 11-1 first It is rotatablely connected disk 5-1, the second rotation connection disk 6-1 and the 3rd rotation connection disk 8-1 is rotated synchronously.

See Fig. 1 to Fig. 5, detection assembling assembly 9 include assembling assembly 9a, infrared detection component 9b, waste product push plate 9c and into Product drawing mechanism 9d.

Assembling assembly 9a includes assembling fixing axle 9a-1, assembling mounting base 9a-2, assembling lifting axis 9a-3, assembling punching press company It connects arm 9a-4, assembling support regulating arm 9a-5, assembling punching press arm seat 9a-6, assembling stamping arm 9a-7 and assembling punching press and resets bullet Spring.

Assembling fixing axle 9a-1 is fixed in rack 1, and passes through the 3rd rotation axis 8- of syringe transfer assembly 8 up and down 2.Assembling mounting base 9a-2 levels are fixed on the top of assembling fixing axle 9a-1.Assembling fixing axle 9a-1 is set along its axis There is the central through hole above and below it.Assembling lifting axis 9a-3 is slidably arranged in the central through hole of assembling fixing axle 9a-1, and It stretches out outside assembling fixing axle 9a-1 up and down.

One end of assembling stamping connection arm 9a-4 is rotatably connected on the upper end of assembling lifting axis 9a-3, and rotation axis is horizontal It sets.Assemble the assembling waist-shaped hole 9a-4-1 being equipped in the middle part of stamping connection arm 9a-4 before and after it.Assembling support regulating arm 9a- 5 are vertically arranged on the left part of assembling mounting base 9a-2, and can move left and right adjusting position.Assemble the another of stamping connection arm 9a-4 One end is divided into two ends.The upper end of assembling support regulating arm 9a-5 is slidably arranged in assembling waist-shaped hole 9a-4-1, for propping up Support assembling stamping connection arm 9a-4, and adjusting supporting point position can be moved left and right along assembling waist-shaped hole 9a-4-1.

Assembling punching press arm seat 9a-6 has 2,2 assembling punching press arm seat 9a-6 along the 3rd rotation connection disk 8-1 it is circumferential according to Secondary setting, and the clamp assemblies 3 at the corresponding syringe clamp assemblies installation bore 8-1a of the 3rd rotation connection disk 8-1 Holding holes top.

It assembles punching press arm seat 9a-6 and the assembling stamping arm slot 9a-6-1 for running through its left and right and top is equipped with along its axis.

Assembling stamping arm 9a-7 is slidably arranged in assembling punching press arm seat 9a-6.It assembles stamping arm 9a-7 tops and is equipped with and stop Portion.Assembling punching press resetting spring is arranged on assembling stamping arm 9a-7, and positioned at the downside of blocking portion and assembling mounting base 9a-2 Between, in compressive state, pushed up upwards for stamping arm 9a-7 will to be assembled.Assemble two ends difference of stamping connection arm 9a-4 It in the assembling stamping arm slot 9a-6-1 of corresponding one assembling punching press arm seat 9a-6, can be slided up and down along the slot, for inciting somebody to action Assembling punching press arm seat 9a-6 is pressed downward.

Infrared detection component 9b has 2 groups, and 2 groups of infrared detection component 9b are successively along the detection circumferentially fixed settings of fixing axle 9a-1 On detection fixing axle 9a-1, whether the piston core pin 100-2 for detecting syringe springs back after being pressed into syringe 100-1.It is useless Product push plate 9c has 2, and 2 waste product push plate 9c are arranged on along detection fixing axle 9a-1 is circumferentially fixed on detection fixing axle 9a-1 successively It is corresponding with 2 groups of infrared detection component 9b positions, when infrared detection components 9b detects that piston core pin 100-2 is not sprung back, The syringe is then waste product, and corresponding waste product push plate 9c stretches out, which is released corresponding clamp assemblies 3.

See that Fig. 1 to Fig. 6, finished product discharging device 9d include discharging gear 9d-1, discharging pushing pedal 9d-2 and discharging driving motor 9d-3.Discharging gear 9d-1 is rotatably arranged in rack 1, and discharging driving motor 9d-3 is fixed in rack 1, is driven by discharging Dynamic motor 9d-3 driving discharging gears 9d-1 is rotated.The tooth socket of discharging gear 9d-1 is arc-shaped, and a corresponding tooth socket and the The holding holes of clamp assemblies 3 on three rotation connection disk 8-1 are coaxial.Discharging pushing pedal 9d-2 is arranged on assembling fixing axle 9a-1, When the clamp assemblies 3 on the 3rd rotation connection disk 8-1 carry the syringe 100 of finished product by finished product discharging device 9d, discharging Push plate 9d-2 withstands the top of syringe 100 along extending radially out for the 3rd rotation connection disk 8-1, by syringe 100 toward extrapolation, together When syringe 100 lower part be located in the corresponding tooth socket of discharging gear 9d-1, discharging gear 9d-1 is rotated syringe outward Clamp assemblies 3 are taken out of, so as to which finished product syringe 100 is taken out from corresponding clamp assemblies 3.

See Fig. 1 to Fig. 4 and Fig. 6, lifting drive component 10 includes lifting motor 10-1, the first lifting cam 10-2 and second Lift cam 10-3.Lifting motor 10-1 is fixed in rack 1, and motor shaft edge is controlled to horizontally disposed.First lifting The liftings of cam 10-2 and second cam 10-3 is fixed on the motor shaft of lifting motor 10-1, and is located at respectively corresponding The lower section of the detection lifting axis 9a-3 of the first lifting axis 7-3 and assembling assembly 9a of piston assembling assembly 7.

During the automatic setup system work of the syringe of the utility model：O-ring is put into the upper of O-ring loading assemblies 4 In charging tray 4-1；Piston core pin 100-2 is pushed into piston transfer assembly 6 from front successively by corresponding piston core pin charging equipment The first holding tank 3-4-1b and second of the first clamping part 3-4-1 of upper 3 first synchronization fixture block 3-4 of corresponding clamp assemblies is synchronous In the holding holes that the second holding tank 3-5-1b of the second clamping part 3-5-1 of fixture block 3-5 is collectively formed, by the first synchronous fixture block 3- 4 fixture block 3-5s synchronous with second are clamped；Syringe 100-1 is pushed into syringe transfer successively by corresponding syringe charging equipment from front The first holding tank 3-4-1b of the first clamping part 3-4-1 of the synchronous fixture block 3-4 of corresponding clamp assemblies 3 first and the on component 8 It is synchronous by first in the holding holes that the second holding tank 3-5-1b of the second clamping part 3-5-1 of two synchronous fixture block 3-5 is collectively formed The synchronizations of fixture block 3-4 and second fixture block 3-5 is clamped.

Rod for stiring materials 4-3 of O-ring loading assemblies 4 is rotated, and promotes the O-ring movement in loading plate 4-1, when O-ring moves The flexibly positioned of the corresponding O-ring assembling assembly 2 in lower section O-ring transfer assembly 5 is fallen into during to corresponding feeding hole 4-1-1 On film, and it is sleeved on each O-ring and expands on pawl 2-5.O-ring transfer group after O-ring is put in corresponding O-ring assembling assembly 2 First rotation connection disk 5-1 of part 5 is rotated, and O-ring assembling assembly 2 is driven to move, when the O-ring assembling assembly 2 for putting on O-ring When moving to the lower section for the piston core pin 100-2 that the corresponding clamp assemblies 3 of piston transfer assembly 6 clamp, assembled by piston The right side punching press of the right side stamping arm 7-9-2 of the right side punch assembly 7-9 of component 7 promotes pawl 7-9-2a and first withstands piston core downwards The upper end piston handle rear distraction of bar 100-2 is slipped on the downside of piston handle, continues to be pressed downward that piston core pin 100-2 can be made same along first Walk the second clamping part 3-5- of the synchronous fixture block 3-5 of the first holding tank 3-4-1b and second of the first clamping part 3-4-1 of fixture block 3-4 The holding holes axial downward movement that 1 the second holding tank 3-5-1b is collectively formed, O-ring is pressed downward by piston core pin 100-2 Each O-ring of assembling assembly 2 expands pawl 2-5, and the top that each O-ring expansion pawl 2-5 is positioned mandrel 2-4 struts, thus will be O-shaped Circle struts, while O-ring is passed down through flexibly positioned film, and when O-ring moves to O-ring filling slot 2-2-2, O-ring is hindered Gear, piston core pin 100-2 continue to move downward, until O-ring departs from each O-ring and expands pawl 2-5, so as to which O-ring is sleeved on piston On the lower end of core bar 100-2.After O-ring is sleeved on piston core pin 100-2, right side punching press promoted pawl 7-9-2a move upwards by The piston handle of piston core pin 100-2, which hooks, drives the moving upwards until departing from O-ring transfer assembly 5 of piston core pin 100-2 First rotation connection disk 5-1；Then the second rotation connection disk 6-1 of piston transfer assembly 6 is rotated, and piston core pin 100-2 is along work The circumferential movement of plug assembling assembly 7 skids off disengaging right side punching press promotion pawl 7-9-2a, the second rotation connection disk 6-1 and passes through corresponding Clamp assemblies 3 drive piston core pin 100-2 to move to the pin that the corresponding clamp assemblies 3 of left side syringe transfer assembly 8 clamp During the top of cylinder 100-1, the upper end that piston core pin 100-2 is first withstood under the left side stamping arm 7-8-2 of left side punch assembly 7-8 will In the corresponding syringe 100-1 in piston core pin 100-2 press-ins lower section, while left side plate and left side stamping arm 7-8-2 are downwardly together It moves and is inserted into the first receptacle slot 3-4-1c of the first clamping part 3-4-1 of the first synchronous fixture block 3-4 of corresponding clamp assemblies 3 In the jack that the second receptacle slot 3-5-1c of the second clamping part 3-5-1 of fixture block 3-5 synchronous with second is collectively formed, make first together It walks the synchronous fixture block 3-5 of fixture block 3-4 and second to open, clamp assemblies 3 and piston transfer group is passed down through convenient for piston core pin 100-2 Second rotation connection disk 6-1 of part 6, then left side stamping arm 7-8-2 be upwards collected through, since syringe 100-1 lower ends are blocked up by syringe Head is blocked, and when the lower end of piston core pin 100-2 packages O-ring, syringe 100-1 and piston core pin 100-2 are with good close Effect is sealed, piston core pin 100-2 can spring back a small distance upwards at this time, but the upper end of piston core pin 100-2 is still located on living The downside of the second rotation connection disk 6-1 of transfer assembly 6 is filled in, the 3rd rotation connection disk 8-1 of syringe transfer assembly 8 turns at this time It is dynamic, the corresponding clamp assemblies 3 of syringe transfer assembly 8 is driven to clamp and load onto the syringe 100-1 of piston core pin 100-2 to the left Movement；When piston core pin 100-2 and syringe 100-1 are moved at the infrared detection component 9b of detection assembling assembly 9, infrared inspection It surveys component 9b to be detected according to the piston core pin 100-2 height sprung back, when detecting piston core pin 100-2, represents syringe 100-1 and piston core pin 100-2 has good sealing effect, and syringe 100-1 is represented if it can't detect piston core pin 100-2 Coordinate blow-by with piston core pin 100-2, be substandard products, corresponding waste product push plate 9c, which stretches out, at this time releases the syringe accordingly Clamp assemblies 3.Then the 3rd rotation connection disk 8-1 of syringe transfer assembly 8 is rotated, and drives qualified syringe 100-1 and piston When core bar 100-2 continuation moves to the lower section of assembling assembly 9a to the left, by assembling stamping arm 9a-7 accordingly by piston core pin 100-2 continues to be pressed downwardly onto bottom, it is made to be fully inserted into syringe 100-1；Then the 3rd rotation connection disk of syringe transfer assembly 8 8-1 is rotated, when the complete syringe 100-1 and piston core pin 100-2 of drive assembling moves to finished product discharging device 9d, syringe 100 are fallen into after finished product discharging device 9d release clamp assemblies 3 in corresponding products storage device.

Above example is only for illustration of the utility model rather than limitation to the utility model, related technical field Technical staff in the case where not departing from the spirit and scope of the utility model, various conversion and variation can also be made, have It can also accordingly be transformed according to the inspiration of above-described embodiment in body application process, therefore all equivalent technical solutions are equal It should be included within the scope of patent protection of the utility model.

Claims (3)

1. a kind of clamp assemblies, it is characterised in that：Including self-clamping module retainer plate, retainer plate upper cover plate, retainer plate lower cover, One synchronous fixture block and the second synchronous fixture block；Self-clamping module retainer plate is integrally shelly-shaped in cylinder；Self-clamping module retainer plate is radially Equipped with the feeding port inside and outside it；Retainer plate upper cover plate is fixed at self-clamping module and fixes in sector, retainer plate upper cover plate It encloses on top；Retainer plate lower cover is fixed in sector, retainer plate lower cover on self-clamping module retainer plate lower part；First is same Step fixture block and the second synchronous fixture block are rotatably arranged between retainer plate upper cover plate and retainer plate lower cover, form clamp structure, and Rotate synchronously movement.

2. clamp assemblies according to claim 1, it is characterised in that：Self-clamping module retainer plate one side is equipped with inside and outside it Fixture block escape groove；The self-clamping module retainer plate one side opposite with fixture block escape groove is equipped with the fixture block push rod slot inside and outside it；

The structure of first synchronous fixture block and the second synchronous fixture block is essentially identical；First synchronous fixture block one end is equipped with the first clamping part, Middle part is the first rotating junction, and the other end is equipped with the first push rod portion；First clamping part is equipped with the first guiding surface and first Holding tank；First rotating junction is equipped with the first synchronous gear；Second synchronous fixture block one end is equipped with the second clamping part, middle part the Two rotating junctions, the other end are equipped with the second push rod portion；Second clamping part is equipped with the second guiding surface and the second holding tank；The Two rotating junctions are equipped with the second synchronous gear；

The second of second clamping part of the first guiding surface of the first clamping part of the first synchronous fixture block and the second synchronous fixture block is led The V-arrangement that outward opening is collectively formed to inclined-plane clamps guide groove；

Second clamping of the second clamping part of the first holding tank of the first clamping part of the first synchronous fixture block and the second synchronous fixture block Holding holes are collectively formed in slot；

Second rotating junction of the first synchronous gear of the first rotating junction of the first synchronous fixture block and the second synchronous fixture block Second synchronous gear is meshed；

First synchronous fixture block and the second synchronous fixture block by its respective rotating junction be rotatably arranged on retainer plate upper cover plate and Between retainer plate lower cover, clamp structure is formed, and rotates synchronously movement；The first push rod portion and second of first synchronous fixture block is together Compression spring is equipped between second push rod portion of step fixture block, the first synchronous fixture block and the second synchronous fixture block is made to be in clamp position；

The corresponding site of second clamping part of the first clamping part of the first synchronous fixture block and the second synchronous fixture block is located at self-clamping module In the fixture block escape groove of retainer plate.

3. clamp assemblies according to claim 2, it is characterised in that：It is additionally provided on first clamping part of the first synchronous fixture block First receptacle slot；The second receptacle slot is additionally provided on second clamping part of the second synchronous fixture block；First clamping of the first synchronous fixture block Corresponding jack is collectively formed in second receptacle slot of the second clamping part of the first receptacle slot fixture block synchronous with second in portion.