CN220838791U - Feed mechanism of lock body front through assembly - Google Patents

Abstract

The utility model relates to the technical field of lockset assembly, in particular to a feeding mechanism of a lock body front-pass assembly, which comprises a front-pass feeding module, a front-pass inserting module and a front-pass feeding assembly for conveying the front-pass assembly from the front-pass feeding module to the front-pass inserting module; the front-pass feeding module is used for conveying the front-pass assembly into a jig provided with a support frame assembly in the front-pass feeding assembly; the front through insertion module is used for pressing the front through spring card into the inner cavity of the front through assembly and pressing the front through assembly into the support frame assembly. When the utility model is used, the assembly of the front pass assembly and the support frame assembly is completed through the front pass feeding module and the front pass inserting module, so that the labor intensity is reduced.

Description

Feed mechanism of lock body front through assembly

Technical Field

The utility model relates to the technical field of lockset assembly, in particular to a feeding mechanism of a lock body front through assembly.

Background

The lockset is an appliance with a sealing function; the lockset consists of a switch cylinder component Z1, a front through component Z2, a bumper component Z3, an inner core sleeve component Z4, a support frame component Z5, a lock body sliding block Z6, a spring bracket Z7, a lockset spring Z8, a lockset baffle Z9 and a rear through component Z10; firstly, a front through component Z2 of a lock is required to be inserted into a support frame component Z5, then the front through component Z2 is put into a switch cylinder component Z1, then a lock body sliding block Z6, a spring support Z7 and a lock spring Z8 are put into the support frame component Z5, the front half part of the lock body is preassembled, a bumper component Z3 is put into a rear through component Z10, and the rear through component Z10 is clamped into an inner core sleeve component Z4 by a lock baffle Z9 to form the rear half part of the lock body; the front half part and the rear half part of the lockset are clamped and fixed in the clamping groove of the inner sleeve component Z4 through clamping positions on the support frame component Z5, so that the lockset is assembled.

However, in the existing lockset assembly structure, the connection between the front through component Z2 and the support frame component Z5 is completely assembled by manpower; after the worker inserts the front through component Z2 into the inner hole of the support frame component Z5, the front through component Z2 is rotated, so that the front through spring clamp Z201 of the front through component Z2 is aligned with the buckling hole of the support frame component Z5, the front through spring clamp Z201 is pressed into the front through component Z2 by a screwdriver, so that the front through component Z2 can be completely inserted into the support frame component Z5, and as the front through component Z2 is continuously inserted into the support frame component Z5, the front through spring clamp Z201 is automatically inserted into the buckling hole of the support frame component Z5, and the connection between the front through component Z2 and the support frame component Z5 is realized; the alignment between the front through component Z2 and the support frame component Z5, the pressing-in of the front through spring card Z201 and the insertion of the front through component Z2 into the support frame component Z5 all need manual completion operation, and the labor intensity is high.

Disclosure of utility model

The utility model aims to overcome the defects and shortcomings of the prior art and provides a feeding mechanism of a lock body front through assembly.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

The utility model relates to a feeding mechanism of a lock body front-pass assembly, which comprises a front-pass feeding module, a front-pass inserting module and a front-pass feeding assembly for conveying the front-pass assembly from the front-pass feeding module to the front-pass inserting module;

The feed-forward feeding module is used for conveying the feed-forward assembly into a jig with a support frame assembly in the feed-forward assembly; the front through insertion module is used for pressing the front through spring card into the inner cavity of the front through assembly and pressing the front through assembly into the support frame assembly.

Further, the front-pass feeding module comprises a front-pass feeding vibration disc provided with a front-pass assembly, a front-pass vibration feeder connected to the discharge end of the front-pass feeding vibration disc, a front-pass positioning piece connected to the tail end of the front-pass vibration feeder, and a front-pass grabbing manipulator used for grabbing the front-pass assembly from the front-pass positioning piece and placing the front-pass assembly into the front-pass feeding assembly; the front-pass grabbing manipulator comprises a front-pass feeding clamping claw cylinder, a first front-pass lifting cylinder driving the front-pass feeding clamping claw cylinder to do lifting motion and a front-pass translation cylinder driving the first front-pass lifting cylinder to do translation motion.

Further, a front through positioning groove is formed in one side, facing the front through vibration feeder, of the front through positioning piece; a front through positioning strip is arranged in the inner cavity of the front through positioning groove; the width of the front through locating strip gradually decreases along with the side close to the front through vibration feeder.

Further, the front-pass insertion module comprises a spring clamp assembly for pressing the front-pass spring clamp into the inner cavity of the front-pass assembly and a front-pass pressing assembly for pressing the front-pass assembly into the support frame assembly.

Further, the spring pressing card assembly comprises a front through thimble, a front through second cylinder for driving the front through thimble to transversely move and a front through first cylinder for driving the front through second cylinder to longitudinally move.

Further, the front-pass pressing assembly comprises a front-pass pressing sliding seat, a front-pass pressing cylinder for driving the front-pass pressing sliding seat to do lifting motion, and a front-pass pressing head fixed on the front-pass pressing sliding seat.

Further, a front through lifting positioning component is arranged below the front through pressing component; the front-pass lifting positioning assembly comprises a front-pass lifting plate, a lifting plate driving assembly capable of driving the front-pass lifting plate to do lifting motion and a front-pass rotary cylinder fixed on the front-pass lifting plate; and the front pass rotary cylinder is connected with a front pass positioning seat.

Further, the front-pass lifting positioning assembly comprises a second front-pass lifting cylinder connected to the front-pass lifting plate, a front-pass lifting guide sleeve fixed to the front-pass lifting plate and a front-pass lifting guide shaft connected to the front-pass lifting guide sleeve in a sliding manner.

After the structure is adopted, the utility model has the beneficial effects that: when the feeding mechanism of the lock body front-pass assembly is used, the first feeding turntable conveys the first turntable jig with the support frame assembly to the position of the feeding module, and the feeding module places the front-pass assembly into the support frame assembly in the first turntable jig; the first feeding turntable drives a first turntable jig provided with a support frame assembly and a front pass assembly to be conveyed into a front pass insertion module, the front pass insertion module presses the front pass assembly downwards towards the support frame assembly, and meanwhile, a front pass spring clamp is pressed into an inner cavity of the front pass assembly, so that the front pass spring clamp is retracted into the front pass assembly, the front pass assembly can be completely pressed into the support frame assembly until the front pass spring clamp is clamped into the support frame assembly for fixing, and assembly of the support frame assembly and the front pass assembly is completed; in the structure, the assembly of the front pass assembly and the support frame assembly is completed through the front pass feeding module and the front pass inserting module, so that the labor intensity is reduced.

Drawings

FIG. 1 is an exploded view of a lock body;

FIG. 2 is a block diagram of the front opening assembly in combination with the support bracket assembly;

FIG. 3 is a schematic diagram of the structure of the present utility model;

FIG. 4 is a block diagram of a feed-forward module;

FIG. 5 is a block diagram of a front pass positioning member;

FIG. 6 is a block diagram of a front pass insert module;

reference numerals illustrate:

a1, a front vibration feeder; a2, a front through positioning piece;

A201, a front through positioning groove; a202, a front positioning strip; a3, a front feeding cylinder clamping jaw is communicated;

A4, a first front through lifting cylinder; a5, a front-pass translation cylinder; a6, a front feeding vibration disc is communicated;

B. A front pass insertion module; b1, a front-pass downward pressing cylinder; b2, pushing down the sliding seat by a front through;

b3, a first cylinder is communicated in front; b4, a front thimble is communicated; b5, leading to a second cylinder;

B6, a front rotary cylinder; b7, a second front-through lifting cylinder; b8, lifting guide shafts are communicated in front;

B9, lifting guide sleeve is communicated with the front; b10, a front through lifting plate; b11, a front through positioning seat; b12, a front pressure head;

C. a first feeding turntable; c1, a first turntable jig;

Z, lockset component; z1, a switch cylinder assembly; z2, a front pass component; z201, a front through spring clip;

Z3, a bumper assembly; z4, an inner sleeve assembly; z5, a support frame assembly; z6, a lock body sliding block;

z7, spring support; z8, a lockset spring; z9, lock baffle; z10, rear pass assembly.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

As shown in fig. 1 to 6, the feeding mechanism of the lock body front-pass assembly comprises a front-pass feeding module a, a front-pass inserting module B and a front-pass feeding assembly for conveying a front-pass assembly Z2 from the front-pass feeding module a to the front-pass inserting module B;

The front-pass feeding module A is used for conveying the front-pass component Z2 into a jig provided with a support frame component Z5 in the front-pass feeding component; the front-pass inserting module B is used for pressing the front-pass spring card Z201 into the inner cavity of the front-pass assembly Z2 and pressing the front-pass assembly Z2 into the support frame assembly Z5;

The front feeding component is a first feeding turntable C; the jig is a first rotary table jig C1; the first rotary table jig C1 and the first feeding rotary table C are not substantially different from the prior art, so that it is not described in detail that the first feeding rotary table C conveys the first rotary table jig C1 with the support frame assembly Z5 to the position of the feeding module a, and the feeding module a puts the front pass assembly Z2 into the support frame assembly Z5 in the first rotary table jig C1; the first feeding turntable C drives a first turntable jig C1 provided with a support frame component Z5 and a front pass component Z2 to be conveyed into a front pass insertion module B, the front pass insertion module B presses the front pass component Z2 downwards towards the support frame component Z5, meanwhile, a front pass spring clamp Z201 is pressed into an inner cavity of the front pass component Z2, so that the front pass spring clamp Z201 is retracted into the front pass component Z2, the front pass component Z2 can be completely pressed into the support frame component Z5 until the front pass spring clamp Z201 is clamped into the support frame component Z5 to be fixed, and the assembly of the support frame component Z5 and the front pass component Z2 is completed; in the structure, the assembly of the front pass component Z2 and the support frame component Z5 is completed through the front pass feeding module A and the front pass inserting module B, so that the labor intensity is reduced.

As a preferable mode of the utility model, the front-pass feeding module A comprises a front-pass feeding vibration disc A6 provided with a front-pass component Z2, a front-pass vibration feeder A1 connected with the discharge end of the front-pass feeding vibration disc A6, a front-pass positioning piece A2 connected with the tail end of the front-pass vibration feeder A1 and a front-pass grabbing manipulator used for grabbing the front-pass component Z2 from the front-pass positioning piece A2 and putting the front-pass component Z2 into the front-pass feeding component; the front-opening grabbing manipulator comprises a front-opening feeding clamping claw cylinder A3 a first front-pass lifting cylinder A4 for driving the front-pass feeding clamping claw cylinder A3 to do lifting movement and a front-pass translation cylinder A5 for driving the first front-pass lifting cylinder A4 to do translation movement;

The front-pass feeding vibration disc A6 and the front-pass vibration feeder A1 are not essentially different from the prior art, so that the front-pass feeding vibration disc A6 arranges the front-pass components Z2 in a trough of the front-pass vibration feeder A1, the front-pass component Z2 at the tail end enters the front-pass positioning piece A2 for positioning, and the front-pass translation cylinder A5, the first front-pass lifting cylinder A4 and the feeding clamping claw cylinder A3 cooperate to grasp the front-pass components Z2 in the front-pass positioning piece A2 and convey the front-pass components Z2 to the support frame component Z5 in the jig.

As a preferable mode of the utility model, a front through positioning groove a201 is formed on one side of the front through positioning piece A2 facing the front through vibration feeder A1; the inner cavity of the front positioning groove A201 is provided with a front positioning strip A202; the width of the front passing positioning strip A202 gradually decreases along with the side close to the front passing vibration feeder A1; the side surface of the front through component Z2 is provided with a slotted hole; the front-pass vibration feeder A1 automatically rotates and enters the front-pass positioning groove A201 when conveying the front-pass component Z2, and the front-pass positioning strip A202 is inserted into a slot hole of the front-pass component Z2 in the rotating process, so that the front-pass component Z2 is oriented in the front-pass positioning piece A2; the front positioning strip A202 is of a conical structure and is convenient to insert into the slotted hole.

As a preferred mode of the present utility model, the front-pass insertion module B includes a spring clip assembly for pressing the front-pass spring clip Z201 into the cavity of the front-pass assembly Z2 and a front-pass assembly for pressing the front-pass assembly Z2 into the support frame assembly Z5.

As a preferable mode of the utility model, the spring pressing card assembly comprises a front through thimble B4, a front through second cylinder B5 for driving the front through thimble B4 to transversely move and a front through first cylinder B3 for driving the front through second cylinder B5 to longitudinally move; the front-pass first cylinder B3 drives the front-pass second cylinder B5 and the front-pass ejector pin B4 to move, so that the front-pass ejector pin B4 is aligned with the front-pass spring clamp Z201, the front-pass second cylinder B5 moves to push the front-pass ejector pin B4 to the front-pass spring clamp Z201 and press the front-pass spring clamp Z201 into the front-pass component Z2, and the front-pass component Z2 is not blocked from being inserted into an inner hole of the support frame component B5.

As a preferred mode of the utility model, the front-pass pressing assembly comprises a front-pass pressing sliding seat B2, a front-pass pressing cylinder B1 for driving the front-pass pressing sliding seat B2 to do lifting movement, and a front-pass pressing head B12 fixed on the front-pass pressing sliding seat B2; the front-pass pressing cylinder B1 is started to drive the front-pass pressing sliding seat B2 and the front-pass pressing sliding seat B2 to move downwards, so that the front-pass component Z2 is pressed into the support frame component Z5.

As a preferable mode of the utility model, a front through lifting positioning component is arranged below the front through pressing component; the front-pass lifting positioning assembly comprises a front-pass lifting plate B10, a lifting plate driving assembly capable of driving the front-pass lifting plate B10 to do lifting motion and a front-pass rotary cylinder B6 fixed on the front-pass lifting plate B10; a front pass positioning seat B11 is connected to the front pass rotary cylinder B6; the front pass positioning seat B11 is matched with an inner hole of the front pass component Z2; the front-pass positioning seat B11 is provided with a convex strip for positioning a slot hole inserted into the side face of the front-pass component Z2, the front-pass lifting positioning component drives the front-pass lifting plate B10 to lift, the front-pass positioning seat B11 is inserted into an inner hole of the front-pass component Z2, and the front-pass rotary cylinder B6 drives the front-pass positioning seat B11 to rotate and is inserted into the slot hole on the side face of the front-pass component Z2; then the front pass lifting positioning component inserts a part of the raised strips into the slotted hole on the side face of the front pass component Z2, and the front pass component Z2 is driven to rotate by the front pass rotary cylinder B6, so that the front pass thimble B4 is aligned with the front pass spring card Z201, and an inductor is arranged at the position and used for inducing the orientation of the front pass spring card Z201.

As a preferred mode of the utility model, the front-pass lifting positioning assembly comprises a second front-pass lifting cylinder B7 connected to a front-pass lifting plate B10, a front-pass lifting guide sleeve B9 fixed on the front-pass lifting plate B10 and a front-pass lifting guide shaft B8 connected to the front-pass lifting guide sleeve B9 in a sliding manner; one end of the front-pass lifting guide shaft B8 and one end of the second front-pass lifting cylinder B7 are fixed on an external support, and the second front-pass lifting cylinder B7 drives the front-pass lifting plate B10 to do lifting motion along the front-pass lifting guide shaft B8 after being started, so that the lifting motion 0 of the front-pass positioning seat B11 is realized.

When the feeding device is used, the front-pass feeding vibration disc is used for arranging the front-pass assemblies in the trough of the front-pass vibration feeder, one front-pass assembly at the tail end enters the front-pass positioning piece for positioning, and the front-pass translation cylinder, the first front-pass lifting cylinder and the feeding clamping claw cylinder cooperate to grab and convey the front-pass assemblies in the front-pass positioning piece to a first rotary table jig with the support frame assemblies on a first feeding rotary table of the support frame assemblies in the jig; the first feeding turntable conveys the support frame assembly and the front through assembly to the lower part of the front through pressure head. The front-pass lifting positioning assembly drives the front-pass lifting plate to lift, the front-pass positioning seat is inserted into the inner hole of the front-pass assembly, and the front-pass rotating cylinder drives the front-pass positioning seat to rotate and is inserted into the slotted hole on the side surface of the front-pass assembly; then, the front-pass lifting positioning component inserts a part of the raised strips into the slotted holes on the side surface of the front-pass component, and the front-pass rotating cylinder drives the front-pass component to rotate so that the front-pass ejector pins are aligned with the front-pass spring cards; the front-pass first cylinder drives the front-pass second cylinder and the front-pass ejector pin to move, so that the front-pass ejector pin is aligned with the front-pass spring clamp, and the front-pass second cylinder moves to push the front-pass ejector pin to the front-pass spring clamp and press the front-pass spring clamp into the front-pass assembly, so that the front-pass assembly is not blocked from being inserted into an inner hole of the support frame assembly; the front-pass pressing cylinder is started to drive the front-pass pressing sliding seat and the front-pass pressing sliding seat to move downwards, so that the front-pass assembly is pressed into the support frame assembly, and the assembly of the front-pass assembly and the support frame assembly is completed; in the structure, the assembly of the front pass assembly and the support frame assembly is completed through the front pass feeding module and the front pass inserting module, so that the labor intensity is reduced.

The foregoing description is only of the preferred embodiments of the utility model, and all changes and modifications that come within the meaning and range of equivalency of the structures, features and principles of the utility model are therefore intended to be embraced therein.

Claims (8)

1. Feed mechanism of logical subassembly before lock body, its characterized in that: the feeding device comprises a front-pass feeding module (A), a front-pass inserting module (B) and a front-pass feeding assembly for conveying a front-pass assembly (Z2) from the front-pass feeding module (A) to the front-pass inserting module (B);

The front-pass feeding module (A) is used for conveying the front-pass assembly (Z2) into a jig provided with a support frame assembly (Z5) in the front-pass feeding assembly; the front-pass insertion module (B) is used for pressing the front-pass spring card (Z201) into the inner cavity of the front-pass assembly (Z2) and pressing the front-pass assembly (Z2) into the support frame assembly (Z5).

2. The feed mechanism of a lock body front opening assembly according to claim 1, wherein: the front-pass feeding module (A) comprises a front-pass feeding vibration disc (A6) provided with a front-pass assembly (Z2), a front-pass vibration feeder (A1) connected to the discharge end of the front-pass feeding vibration disc (A6), a front-pass positioning piece (A2) connected to the tail end of the front-pass vibration feeder (A1) and a front-pass grabbing manipulator used for grabbing the front-pass assembly (Z2) from the front-pass positioning piece (A2) and placing the front-pass assembly into the front-pass feeding assembly; the front-pass grabbing manipulator comprises a front-pass feeding clamping claw cylinder (A3), a first front-pass lifting cylinder (A4) for driving the front-pass feeding clamping claw cylinder (A3) to do lifting motion and a front-pass translation cylinder (A5) for driving the first front-pass lifting cylinder (A4) to do translation motion.

3. The feed mechanism of a lock body front opening assembly according to claim 2, wherein: a front through positioning groove (A201) is formed in one side, facing the front through vibration feeder (A1), of the front through positioning piece (A2); a front through positioning strip (A202) is arranged in the inner cavity of the front through positioning groove (A201); the width of the front through locating strip (A202) gradually decreases along with the side close to the front through vibration feeder (A1).

4. The feed mechanism of a lock body front opening assembly according to claim 1, wherein: the front-pass insertion module (B) comprises a spring clamp assembly for pressing a front-pass spring clamp (Z201) into an inner cavity of the front-pass assembly (Z2) and a front-pass assembly for pressing the front-pass assembly (Z2) into the support frame assembly (Z5).

5. The feed mechanism of a lock body front opening assembly according to claim 4, wherein: the spring pressing clamp assembly comprises a front through ejector pin (B4), a front through second cylinder (B5) for driving the front through ejector pin (B4) to transversely move and a front through first cylinder (B3) for driving the front through second cylinder (B5) to longitudinally move.

6. The feed mechanism of a lock body front opening assembly according to claim 4, wherein: the front-pass pressing assembly comprises a front-pass pressing sliding seat (B2), a front-pass pressing cylinder (B1) for driving the front-pass pressing sliding seat (B2) to do lifting movement, and a front-pass pressing head (B12) fixed on the front-pass pressing sliding seat (B2).

7. The feed mechanism of a lock body front opening assembly according to claim 4, wherein: a front through lifting positioning assembly is arranged below the front pressing assembly; the front-pass lifting positioning assembly comprises a front-pass lifting plate (B10), a lifting plate driving assembly capable of driving the front-pass lifting plate (B10) to do lifting motion and a front-pass rotary cylinder (B6) fixed on the front-pass lifting plate (B10); the front rotary cylinder (B6) is connected with a front positioning seat (B11).

8. The feed mechanism of a lock body front opening assembly of claim 7, wherein: the front-pass lifting positioning assembly comprises a second front-pass lifting cylinder (B7) connected to the front-pass lifting plate (B10), a front-pass lifting guide sleeve (B9) fixed to the front-pass lifting plate (B10) and a front-pass lifting guide shaft (B8) connected to the front-pass lifting guide sleeve (B9) in a sliding manner.