CN205414296U - Damping blind hinge hydraulic cushion system - subassembly equipment - Google Patents

Abstract

The utility model relates to a damping blind hinge hydraulic cushion system - subassembly equipment is at least including frame module, tool module, transport module, propelling movement module, riveting module and control module. The frame module is equipped with table surface, last other modules that is equipped with of table surface. The tool module is used for the location and presss from both sides tightly by the assembly part. The tool module is placed on carrying the module, carries by carrying the module, again by the propelling movement module with the tool module from carrying the originated station of module propelling movement to the riveting assembly. The propelling movement module is used for propelling movement tool module to change between different stations. The riveting module is used for accomplishing by the riveting of assembly part assembly, and control module is used for carrying out coordinated control to the action between the different modules. The utility model discloses a rigging equipment can be realized carrying by a riveting automatic positioning, automatically and a series of assemblies of automatic riveted action in proper order, improves the assembly efficiency and assembly precision of hydraulic cushion system - part greatly.

Description

Damping blind hinge hydraulic cushion parts assembly equipment

Technical field

This utility model is the assembly equipment about a kind of five metals hinge, particularly relates to a kind of damping blind hinge hydraulic cushion parts assembly equipment.

Background technology

Hinge is to apply universal accessory in modern furniture, play the effect of connecting cabinet door, along with the manufacturing fast development of modern furniture, Furniture fittings hinge also obtains tremendous development as the important accessory connecting furnature construction, and the application of high-end hinge such as hydraulicefficiency hinge is more and more extensive.Hydraulic pressure concealed type door hinge includes by the interconnective tumbler of rotating shaft, fixture, drive mechanism and buffering hydraulically extensible bar.Fixture includes shell and inner shell, is provided with and connects and the set screw of displacement on shell with inner shell, and buffering hydraulic expansion link is fixed in inner shell.The type hydro-cushion hinge can be prevented effectively from original common spring hinge due to the resilience force effect of spring, and when closing furniture door, door and cabinet collide and send sound, put bad or breakable article in even damaging cabinet.Just there is this premium properties owing to having the hydraulic pressure blind hinge of pooling feature, therefore extensively apply in modern house kitchen guarding, the market demand is vigorous and in rising trend, and domestic and international market demand is increasing, requires more and more higher to the stability of furniture, ruggedness etc..Therefore, can correspondingly ensure that the automation equipment that hinge efficiently produces just seems the most important.The parts of hinge are mainly formed by punching press, plating, and between different parts, the main operations such as riveting of passing through realize assembling.Staking process is applied at most during the assembling of hinge, and the precise positioning of rivet and high-performance riveting are to determine the key factor of success or failure during assembling.Therefore, the precise positioning of rivet and the stability of structural member should be paid close attention to during the assembling of hinge.

But, for manufacturing automation, assembly automation is still in the relatively backward stage, domestic under existing production model, the assembling of hydro-cushion hinge is mainly the hand-held each position components of workman, then rivet by simple Aided Machine structure, and every one staking process to be required for workman pure manual or operate by auxiliary equipment single-station.Mainly completed by two workman's sub-station cooperations, wherein hand-held two the different parts of workman rivet in auxiliary machinery location, impact, structure and other parts of residue after second place workman hand-held previous name workman riveting position on auxiliary machinery, rivet, and complete assembling.On the one hand, it is low to there is production efficiency in this hand assembled form, seriously the restriction production-scale ability of enterprise expansion, and simultaneously along with cost of labor and the increase of employee's job-hopping rate, the production cost of enterprise, management cost all will become greatly.On the other hand, may be completed by different workmans with one procedure, cause homogeneity of product poor due to the difference of workman proficiency level, defect rate remains high；The third aspect, the safeguard procedures too much participating in and not using necessity of workman, it is susceptible to machine and accidentally injures the industrial accident of workman.Hinge industry belongs to labour intensive profession, and existing low automated production assembly technology is difficult to meet domestic and international market demand, also reduces the international competitiveness of state's inner hinge industry.At present, the existing correlational study of state's inner hinge Automated assembly aspect, but still without comparative maturity, reliable technology and equipment, most of assembly processes need nonetheless remain for artificial participation.

Thus, the present inventor relies on experience and the practice being engaged in relevant industries for many years, proposes one damping blind hinge hydraulic cushion parts assembly equipment, to overcome the defect of prior art.

Utility model content

The purpose of this utility model is to provide a kind of damping blind hinge hydraulic cushion parts assembly equipment, realize being riveted part be automatically positioned, automatic transport and a series of assembling actions of automatic riveting successively, be greatly improved efficiency of assembling and the assembly precision of hydraulic cushion parts.

The purpose of this utility model is achieved in that a kind of damping blind hinge hydraulic cushion parts assembly equipment, and described assembly equipment at least includes:

Stand module；

Tool module, described tool module is used for positioning and clamping assembly；

Conveyor module, described conveyor module is arranged in described stand module, is used for carrying described tool module；Described tool module is placed on described conveyor module；

Pushing module, described pushing module is arranged in described stand module, is used for pushing described tool module and changes between different station；

Riveting module, described riveting module is arranged in described stand module, has been used for the riveting assembling of assembly；

Control module, described control module is for coordinating control to the action between disparate modules.

In a better embodiment of the present utility model, described assembly equipment also includes riveting work platform module, described riveting work platform module is arranged in described stand module, described riveting work platform module is provided with at least one riveting station, described riveting station sets gradually according to riveting order, and the position of described riveting module is corresponding with described riveting station.

In a better embodiment of the present utility model, described riveting work platform module includes riveting table top, and described riveting table top is provided with described riveting station, and described riveting table top is connected in described stand module by riveting platform supporting leg.

In a better embodiment of the present utility model, described conveyor module includes driving motor, conveyer belt or carrier chain, and described driving motor drives described conveyer belt or carrier chain shuttling movement；

Described tool module is provided with multiple, and multiple described tool modules are sequentially arranged on described conveyer belt or carrier chain；The supporting surface of described conveyer belt or carrier chain is consistent with described riveting table surface height, and one end of described conveyer belt or carrier chain transport path and be positioned at first riveting order described riveting station corresponding linking.

In a better embodiment of the present utility model, described pushing module is arranged on the position needing that described tool module carries out station conversion；Described pushing module includes drive division and push part；Described drive division drives described push part linearly to move back and forth.

In a better embodiment of the present utility model, described assembly equipment also includes that inversion module, described inversion module include discharging slideway and pushing means；Described stand module includes work top；Described riveting mesa supports is on described work top；Described discharging slideway first end connect described riveting table top and with last riveting order described riveting station corresponding, the second end of described discharging slideway is positioned on described work top；Described pushing means is arranged in described work top or described riveting module, and is positioned at the described riveting station of last riveting order.

In a better embodiment of the present utility model, described tool module includes:

Base plate；

First clamping section, described first clamping section is fixed on described base plate；

Second clamping section, described second clamping section is movably connected on described base plate, can be matched for clamping tightly with described first clamping section or unclamp assembly；

Positioner, described positioner is fixedly connected on the side on described first clamping section relative to described second clamping section, is used for positioning assembly；

Driving tight lock part, described driving tight lock part is supported on described base plate, and described driving tight lock part can drive described second clamping section to move the action being clamped or unclamping.

In a better embodiment of the present utility model, described driving tight lock part includes bracing frame and promotes check lock lever, and support frame as described above is supported on described base plate, and described promotion check lock lever activity is located on support frame as described above；First end of described promotion check lock lever is provided with operation handle and quick-locking device, and the second end of described promotion check lock lever is fixing connects described second clamping section.

In a better embodiment of the present utility model, described base plate is used for described tool module location at described riveting station；Described riveting table top is L-shaped, and described riveting table top is provided with and coordinates, with described base plate, the groove carrying out guiding and position；Described base plate is positioned at described riveting station by described groove.

In a better embodiment of the present utility model, described assembly equipment also includes auxiliary riveting module, and described auxiliary riveting module is arranged in described stand module, and described auxiliary riveting module includes rivet automatic feeding machine and supporting electric pipeline.

In a better embodiment of the present utility model, described control module uses singlechip controller or PLC；Described control module is provided with multiple operation range.

From the above mentioned, assembly equipment of the present utility model makes each parts initial alignment being assembled by tool module, and the tool module having good positioning provides for follow-up staking process and supports；Tool module achieves the precise positioning of each parts of the buffer unit being assembled, by to the automatic transport of tool module, automatically propelling movement and automatic riveting, it is capable of place to be riveted precise positioning after realizing rivet Automatic-feeding, automatic riveting, the conversion of station Automatic Cycle and conversion, there is higher automaticity.By the demand coordinating to control can to meet each assembling action efficiently of control module, it is ensured that complete machine is stable and reliable in work.

Accompanying drawing explanation

The following drawings is only intended to, in schematically illustrating this utility model and explaining, not limit scope of the present utility model.Wherein:

Fig. 1: for the structural representation of this utility model assembly equipment.

Fig. 2: for the structural representation of tool module in this utility model assembly equipment.

Fig. 3: for the three-dimensional structure diagram of riveting work platform module in this utility model assembly equipment.

Fig. 4: for the top view of riveting work platform module in this utility model assembly equipment.

Detailed description of the invention

In order to be more clearly understood from technical characteristic of the present utility model, purpose and effect, now comparison accompanying drawing illustrates detailed description of the invention of the present utility model.

As it is shown in figure 1, this utility model provides a kind of damping blind hinge hydraulic cushion parts assembly equipment, described assembly equipment at least includes stand module 1, tool module 4, conveyor module 2, pushing module 5, riveting module 6 and control module 3.Stand module 1 is used for supporting other module, and stand module 1 is provided with work top 11, and work top 11 is provided with operative district, and other module is arranged according to the sequence of steps of assembling.Described tool module 4 is used for positioning and clamping assembly, and tool module 4 can select different structure according to different assembly parts, is not limited to the assembling of hydraulicefficiency hinge buffer unit, and the assembly parts of remaining analog structure can also.Operative district is the sintering of assemble flow, and assembly is placed in this operating space in tool module 4 and positions and clamp by workman, then tool module 4 is placed on conveyor module 2.Described conveyor module 2 is arranged in described stand module 1, and conveyor module 2 has a lot in the prior art, such as can be to use conveyer belt or the form of carrier chain.Described tool module 4 is placed on described conveyor module 2, conveyor module 2 be transported to detection zone from initial position, after device detection is qualified after testing, then tool module 4 is pushed to from conveyor module 2 by pushing module 5 initial station of riveting assembling.Pushing module 5 can use prior art, pushes for example with mechanical hand, and described pushing module 5 is arranged in described stand module 1, is used for pushing described tool module 4 and changes between different station.If have multiple riveting station, when tool module 4 is after initial riveting station completes riveting, pushing module 5 it is pushed to next riveting station.Described riveting module 6 is arranged in described stand module 1, be used for assembly riveting assembling, riveting module 6 arrange position with riveting station corresponding, riveting module 6 be automatic riveting mechanism, employing prior art, rivet station carry out automatic riveting assembling.Described control module 3 is for coordinating control to the action between disparate modules.Control module 3 is complete machine core control zone, and complete machine sequence of movement is arranged in strict accordance with practical set sequential.Complete machine controls under allotment at the overall of control module 3, and each functional module stable coordination operates, and meets the requirement of hydraulic cushion parts assembling.

Therefore, assembly equipment of the present utility model can realize being riveted part be automatically positioned, automatic transport and a series of assembling actions of automatic riveting successively, be greatly improved efficiency of assembling and the assembly precision of hydraulic cushion parts.

A specific embodiment of the present utility model is illustrated below in conjunction with Fig. 1 to Fig. 4.As shown in Figure 1, the assembly equipment that this utility model provides uses pipeline-type arrangement, including stand module 1, tool module 4, conveyor module 2, pushing module 5, riveting module 6, riveting work platform module 7, inversion module 9, control module 3 and auxiliary riveting module 8.Stand module 1 acts primarily as supporting role, and stand module 1 is provided with work top 11, and work top 11 is disposed with operative district and other module arranged according to assemble sequence.

As in figure 2 it is shown, tool module 4 includes the 43, second clamping section 42, base plate the 41, first clamping section, positioner 44 and drives tight lock part 45.Base plate 41 is rectangular flat, on the one hand arranges the 43, second clamping section 42, the first clamping section for supporting and drives tight lock part 45, is on the other hand used for the tool module 4 location at riveting station.Described first clamping section 43 is fixed on the one end on described base plate 41；Described second clamping section 42 is movably connected on described base plate 41, can be matched for clamping tightly with described first clamping section 43 or unclamp assembly, i.e. can translate relative first clamping section 43.Described positioner 44 is fixedly connected on the side on described first clamping section 43 relative to described second clamping section 42, is used for positioning assembly, and positioner 44 makes to position with relative position relation accurately between assembly.Described driving tight lock part 45 is supported on described base plate 41, and described driving tight lock part 45 can drive described second clamping section 42 to move the action being clamped or unclamping.Driving tight lock part 45 include bracing frame 451 and promote check lock lever 452, support frame as described above 451 is supported on described base plate 41, and the activity of described promotion check lock lever 452 is located on support frame as described above 451, and its pushing direction is parallel with base plate 41；First end of described promotion check lock lever 452 is provided with operation handle and quick-locking device, and the second end of described promotion check lock lever 452 is fixing connects described second clamping section 42, and the second clamping section 42 is moved under the drive promoting check lock lever 452.Quick-locking device can use existing multiple quick-locking mechanism, such as eccentric locking mechanism.Workman pushes the second clamping section 42 to first clamping section 43 by operation handle, is clamped by assembly, and maintains coupling mechanism force by quick-locking device.

Adjacent operative district is provided with conveyor module 2, and conveyor module 2 includes driving motor, conveyer belt or carrier chain, conveyer belt or carrier chain to form an annular, and a part is positioned at the top of work top 11, and another part is positioned at the lower section of work top 11.Described driving motor is located in stand module 1, drives described conveyer belt or carrier chain to do circulation circular motion.Driving motor can be to use the form such as servomotor or motor.Conveyer belt or carrier chain are provided with the location division for localization tool module 4, and tool module 4 is placed on location division to control the transfer position of tool module 4.Generally individually being provided with multiple tool module 4, the part location needing assembling is clamped in tool module 4 by workman in operative district, then tool module 4 is placed on the location division of conveyer belt or carrier chain.The transport path of conveyer belt or carrier chain is provided with a detection zone, and tool module 4 detects through detection device after being transported to detection zone.

Riveting work platform module 7 is arranged on work top 11, described riveting work platform module 7 is provided with three riveting stations, three riveting stations set gradually according to riveting order, i.e. be positioned at the first riveting order is the first riveting station 73, be positioned at last riveting order is the 3rd riveting station 75, needs the tool module 4 carrying out riveting operation to move to the 3rd riveting station 75 from the first riveting station 73 successively.The position of described riveting module 6 is corresponding with each riveting station successively.Concrete, as shown in Figure 3 and Figure 4, described riveting work platform module 7 includes riveting table top 72, and riveting table top 72 is L-shaped, described riveting table top 72 is provided with described riveting station, and supporting below by riveting platform supporting leg 71 of described riveting table top 72 is connected on work top 11.The supporting surface of conveyer belt or carrier chain is highly consistent with described riveting table top 72, so that tool module 4 can be pushed to rivet on table top 72 by pushing module 5, and described conveyer belt or one end (i.e. one end of transport path) of carrier chain and the first riveting station 73 is corresponding is connected, the transport path of such as conveyer belt or carrier chain is parallel with the first limit of riveting table top 72 to be provided adjacent to, first riveting station 73 is positioned at the end on the first limit of riveting table top 72, and one end of conveyer belt or carrier chain is corresponding with the first riveting station 73.The corner of riveting table top 72 is provided with the second riveting station 74, and the end on the second limit of riveting table top 72 is provided with the 3rd riveting station 75.It is additionally provided with on riveting table top 72 and coordinates with tool module 4, the groove 721 that tool module 4 is guided and positions.Tool module 4 is accurately located at each riveting station by described groove 721, in order to carry out automatic riveting.Owing to base plate 41 is rectangle, groove 721 is the rectangular recess 721 that size coordinates with base plate 41.Groove 721 at the first riveting station 73 is provided with inlet port 722, and tool module 4 is pushed to the first riveting station 73 from this inlet port 722 by pushing module 5, pushes rear base plate 41 and is resisted against on the sidewall of groove 721 and is accurately positioned.Tool module 4 is pushed to the second riveting station 74 from the first riveting station 73 along groove 721 by pushing module 5, i.e. in the corner of riveting table top 72, is just positioned by the sidewall of groove 721；Tool module 4 is pushed to the 3rd riveting station 75 from the second riveting station 74 along groove 721 by last pushing module 5；Groove 721 at 3rd riveting station 75 is provided with outlet 723, and the tool module 4 completing assembling is released groove 721 from this outlet 723 by inversion module 9, returns to operative district.

As it is shown in figure 1, pushing module 5 is arranged on the position needing that described tool module 4 carries out station conversion.Concrete, one end that corresponding conveyer belt or carrier chain connect with riveting table top 72 on work top 11 is provided with the first pushing module 51, is provided with the second pushing module 52 at the first riveting station 73, is provided with the 3rd pushing module 53 at the second riveting station 74.Tool module 4 is pushed to the first riveting station 73 from conveyer belt or carrier chain by the first pushing module 51, and tool module 4 is pushed to the second riveting station 74 by the second pushing module 52, and tool module 4 is pushed to the 3rd riveting station 75 by the 3rd pushing module 53.Described pushing module 5 includes drive division and push part；Described drive division drives described push part linearly to move back and forth.Drive division can use cylinder, hydraulic cylinder or linear electric motors isoline driving means, and push part is equipped with pushing baffle plate.

Riveting module 6 uses existing automatic riveting mechanism, is arranged on the work top 11 corresponding with each riveting station, the assembly parts in the tool module 4 of this riveting station are carried out automatic riveting operation.Riveting module 6 uses riveting cylinder impact rivet to make it deform the connection realized between accessory to be installed, thus completes to treat the staking process of assembly parts.Auxiliary riveting module 8 is provided with rivet automatic feeding machine and supporting electric pipeline；So that auxiliary riveting module 6 carries out automatic riveting operation.

Inversion module 9 is arranged on work top 11；Inversion module 9 includes discharging slideway 91 and pushing means (not shown).First end of described discharging slideway 91 connects described riveting table top 72 corresponding with the 3rd riveting station 75, the outlet 723 of groove 721 i.e. to should the first end of discharging slideway 91, tool module 4 enters discharging slideways 91 from outlet 723.Second end of described discharging slideway 91 is positioned on described work top 11, and extends to operative district, and the tool module 4 completing assembling is returned to operative district, workman unloaded from tool by assembly parts.Described pushing means is arranged at the 3rd riveting station 75.Concrete, this pushing means can use the mechanism similar with pushing module 5, tool module 4 is pushed to discharging slideway 91 from the outlet 723 of groove 721.Pushing means can be arranged in the automatic riveting mechanism at the 3rd riveting station 75, it is also possible to is arranged on work top 11.

Control module 3 is the core control zone of whole assembly equipment, and complete machine everything is coordinated control, it is ensured that complete machine efficient stable runs.Control module 3 uses singlechip controller or PLC.Skilled operation degree for different workmans is different, and control module 3 is provided with three different operating gears, the transporting velocity of the corresponding different described conveyor module 2 of each described operation range.Workman first selects the proper operation gear of the most corresponding different conveyor module 2 transporting velocity on touch control screen, the most hand-held four position components to be assembled are in tool module 4, then tool module 4 is positioned on conveyor module 2 in order, after tool is transported to detect the region detection of device after testing by conveyor module 2 by conveyer belt or conveyer chain, tool module 4 entirety is pushed to rivet the first riveting station 73 of table top 72 by pushing module 5 from conveyor module 2；Assembly parts are carried out riveting for the first time by riveting module 6, control pushing module 5 pushes tool module 4 successively and carries out the second riveting station 74 and riveting process of the 3rd riveting station 75, being finally completed three riveting assemblings, last tool module 4 entirety sends back to the operative district on work top 11 under inversion module 9 acts on.

As a example by the assembling of hydraulic cushion parts, the interoperation between each big functional module is illustrated, first, four accessories to be installed are manually interspersed on positioner 44 by workman according to a definite sequence, and be locked in tool module 4 with quick-locking device, then it is transported to detect region by conveyor module 2 by tool module 4.After testing after device detection, the first riveting station 73 that tool module 4 is pushed to rivet table top 72 by the first pushing module 51 from conveyor module 2 also carries out precise positioning, and then riveting module 6 is treated assembly parts under the cooperation of auxiliary riveting module 8 and carried out riveting for the first time.Then tool module 4 is pushed to the second riveting station 74 and carries out precise positioning by the second pushing module 52, and riveting module 6 completes second time under auxiliary riveting module 8 coordinates equally and rivets.Staking process is such as second time for the third time, then by the pushing means in inversion module 9, tool module 4 is pushed discharging slideway 91 to, then by discharging slideway 91, tool module 4 is sent back to operative district.

From the above mentioned, this utility model can high efficiency, in high precision, stably to different hinge assemblies parts coordinate different tools to assemble；Workman can be reduced and participate in the process of whole assembling, be effectively improved the homogeneity of product of hinge, and effectively reduce the percent defective of product；Avoid the single-station operator scheme of prior art, the efficiency of assembling of hydraulic cushion parts can be greatly improved；Mounting technology to whole hinge industry provides the technology upgrading in technological innovation direction, beneficially enterprise, improves market competitiveness of enterprises.

The foregoing is only the schematic detailed description of the invention of this utility model, be not limited to scope of the present utility model.Any those skilled in the art, equivalent variations done on the premise of without departing from design of the present utility model and principle and amendment, the scope of this utility model protection all should be belonged to.

Claims (11)

1. a damping blind hinge hydraulic cushion parts assembly equipment, it is characterised in that described assembly equipment at least includes:

Stand module；

Tool module, described tool module is used for positioning and clamping assembly；

Conveyor module, described conveyor module is arranged in described stand module, is used for carrying described tool module；Described tool module is placed on described conveyor module；

Pushing module, described pushing module is arranged in described stand module, is used for pushing described tool module and changes between different station；

Riveting module, described riveting module is arranged in described stand module, has been used for the riveting assembling of assembly；

Control module, described control module is for coordinating control to the action between disparate modules.

2. damping blind hinge hydraulic cushion parts assembly equipment as claimed in claim 1, it is characterized in that, described assembly equipment also includes riveting work platform module, described riveting work platform module is arranged in described stand module, described riveting work platform module is provided with at least one riveting station, described riveting station sets gradually according to riveting order, and the position of described riveting module is corresponding with described riveting station.

3. damping blind hinge hydraulic cushion parts assembly equipment as claimed in claim 2, it is characterized in that, described riveting work platform module includes riveting table top, and described riveting table top is provided with described riveting station, and described riveting table top is connected in described stand module by riveting platform supporting leg.

4. damping blind hinge hydraulic cushion parts assembly equipment as claimed in claim 3, it is characterised in that described conveyor module includes driving motor, conveyer belt or carrier chain, and described driving motor drives described conveyer belt or carrier chain shuttling movement；

Described tool module is provided with multiple, and multiple described tool modules are sequentially arranged on described conveyer belt or carrier chain；The supporting surface of described conveyer belt or carrier chain is consistent with described riveting table surface height, and one end of described conveyer belt or carrier chain transport path and be positioned at first riveting order described riveting station corresponding linking.

5. damping blind hinge hydraulic cushion parts assembly equipment as claimed in claim 1, it is characterised in that described pushing module is arranged on the position needing that described tool module carries out station conversion；Described pushing module includes drive division and push part；Described drive division drives described push part linearly to move back and forth.

6. damping blind hinge hydraulic cushion parts assembly equipment as claimed in claim 3, it is characterised in that described assembly equipment also includes that inversion module, described inversion module include discharging slideway and pushing means；Described stand module includes work top；Described riveting mesa supports is on described work top；Described discharging slideway first end connect described riveting table top and with last riveting order described riveting station corresponding, the second end of described discharging slideway is positioned on described work top；Described pushing means is arranged in described work top or described riveting module, and is positioned at the described riveting station of last riveting order.

7. damping blind hinge hydraulic cushion parts assembly equipment as claimed in claim 4, it is characterised in that described tool module includes:

Base plate；

First clamping section, described first clamping section is fixed on described base plate；

Second clamping section, described second clamping section is movably connected on described base plate, can be matched for clamping tightly with described first clamping section or unclamp assembly；

Positioner, described positioner is fixedly connected on the side on described first clamping section relative to described second clamping section, is used for positioning assembly；

Driving tight lock part, described driving tight lock part is supported on described base plate, and described driving tight lock part can drive described second clamping section to move the action being clamped or unclamping.

8. damping blind hinge hydraulic cushion parts assembly equipment as claimed in claim 7, it is characterized in that, described driving tight lock part includes bracing frame and promotes check lock lever, and support frame as described above is supported on described base plate, and described promotion check lock lever activity is located on support frame as described above；First end of described promotion check lock lever is provided with operation handle and quick-locking device, and the second end of described promotion check lock lever is fixing connects described second clamping section.

9. damping blind hinge hydraulic cushion parts assembly equipment as claimed in claim 8, it is characterised in that described base plate is used for described tool module location at described riveting station；Described riveting table top is L-shaped, and described riveting table top is provided with and coordinates, with described base plate, the groove carrying out guiding and position；Described base plate is positioned at described riveting station by described groove.

10. damping blind hinge hydraulic cushion parts assembly equipment as claimed in claim 1, it is characterized in that, described assembly equipment also includes auxiliary riveting module, described auxiliary riveting module is arranged in described stand module, and described auxiliary riveting module includes rivet automatic feeding machine and supporting electric pipeline.

The 11. damping blind hinge hydraulic cushion parts assembly equipments as according to any one of claim 1 to 10, it is characterised in that described control module uses singlechip controller or PLC；Described control module is provided with multiple operation range.