CN210838413U - Crimping surface self-adaptive crimping machine - Google Patents

Abstract

The utility model discloses a self-adaptive crimping machine for a crimping surface, which comprises a first driving component, a crimping mechanism and a replacing mechanism, wherein the first driving component is arranged above a transmission belt in a spanning manner along a direction vertical to the transmission belt; the crimping mechanism is connected to the first driving assembly; the crimping mechanism comprises a driving part, a connecting part and a crimping part, wherein the driving part is connected to the output end of the first driving assembly, and the connecting part is connected to the output end of the driving assembly; the crimping part is arranged below the connecting part and is arranged at an interval with the connecting part, and the lower part of the crimping part is detachably connected with a crimping head; a self-adaptive ball and a flexible connecting plate are arranged in a gap space between the crimping part and the connecting part, and the self-adaptive ball is rotatably connected in a gap between the flexible connecting plate and the connecting part or a gap between the flexible connecting plate and the crimping part; the replacing mechanism is arranged on the side part of the conveying belt. The utility model discloses realize the parallel laminating of crimping face self-adaptation and the automatic dismouting of crimping head.

Description

Crimping surface self-adaptive crimping machine

Technical Field

The utility model relates to an automatic field indicates a crimping face self-adaptation formula press-connection machine very much.

Background

The connector is a very common electronic component and is often used for being inserted on a PCB, the bottom of the connector is provided with two rows of metal pins which are designed side by side, and the metal pins are inserted into correspondingly designed pin holes on the PCB to realize electric conduction; the assembly of the connector is a production work with high precision requirement and great process difficulty; at present, the following technical difficulties in the connector assembly process need to be broken through: 1. in the assembly process of the connector, special crimping heads are generally designed for different connectors, the connector is pressed into a pin hole of a PCB through the crimping heads, in the crimping process, due to the fact that the crimping heads are in surface contact with pins of the connector, when the planes of the crimping heads and the pins of the connector are not parallel, the pressing depth of the positions, contacting the pins, of the crimping heads is larger than the pressing depth of the positions contacting the pins afterwards, and the situation that the pins kneel the pins easily occurs, so that the crimping is failed, and defective products occur; 2. different connectors need different crimping heads to be crimped, and a pressure head replacing mechanism which are convenient to clamp and convenient to replace are designed for improving the universality of equipment.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is not enough to above-mentioned prior art, provide one kind and adopt self-adaptation spheroid, flexonics board and spring coupling to realize the parallel laminating of crimping face self-adaptation each other in coordination, realize the crimping head through sliding sleeve block structure automatic disassembly and assembly's crimping face self-adaptation formula press-connection machine.

The utility model adopts the technical scheme as follows: a crimping surface self-adaptive crimping machine comprises a rack and a transmission belt arranged on the rack, wherein a PCB to be crimped is placed on the transmission belt and is linearly transmitted forwards; the crimping mechanism is connected to the first driving assembly and is driven by the first driving assembly to move linearly; the crimping mechanism comprises a driving part, a connecting part and a crimping part, wherein the driving part is connected to the output end of the first driving assembly, and the connecting part is connected to the output end of the driving assembly and is driven by the driving assembly to perform linear motion, lifting motion and rotary motion; the crimping part is arranged below the connecting part and is arranged at an interval with the connecting part, and the lower part of the crimping part is detachably connected with a crimping head; the self-adaptive ball and the flexible connecting plate are arranged in a gap space between the crimping part and the connecting part, the self-adaptive ball is rotatably connected in a gap between the flexible connecting plate and the connecting part or a gap between the flexible connecting plate and the crimping part, the crimping part presses down the connector on the PCB, and the reaction force of a compression plane of the connector enables the flexible connecting plate to be self-adaptively adjusted to the direction parallel to the compression plane; the replacing mechanism is arranged on the side portion of the transmission belt, at least two replacing stations are arranged on the replacing mechanism at intervals, and the replacing stations are detachably provided with the pressing joints.

Preferably, the first driving assembly comprises two brackets, a first motor and a first screw rod, wherein the two brackets are arranged on the rack in parallel at intervals along a direction perpendicular to the conveying belt, a sliding rail is arranged at the upper part of each bracket, and the compression joint mechanism is embedded on the sliding rail in a sliding manner; the first screw rods comprise two screw rods, the two screw rods are rotatably arranged on the two brackets, and the first screw rods are in threaded connection with the crimping mechanism; the two first motors are respectively arranged at the end parts of the first screw rods and drive the first screw rods to rotate, so that the crimping mechanism slides linearly along the slide rails.

Preferably, the driving part comprises a crimping support, a second driving assembly, a third driving assembly and a fourth driving assembly, wherein the bottom of the crimping support is slidably connected with the sliding rail, two ends of the crimping support are respectively provided with a first screw rod sleeve, the first screw rod sleeve is arranged on the first screw rod in a sleeved mode, the first screw rod rotates, and the first screw rod sleeve drives the crimping support to move linearly.

Preferably, the second driving assembly comprises a second motor, a second screw rod, a second slide rail, a second slide seat and a third slide rail, the second screw rod is rotatably arranged on the side wall of the crimping support, and the second screw rod is arranged perpendicular to the direction of the first screw rod; the second slide rails are arranged in parallel at intervals of a second screw rod; the third slide rail is arranged at the bottom of the crimping support; the cross section of the second sliding seat is L-shaped, and the second sliding seat is slidably embedded on the second sliding rail and the third sliding rail and is connected with the second screw rod through a second screw rod sleeve; the second motor is arranged at the end part of the second screw rod, the output end of the second motor is connected with the second screw rod, the second motor drives the second screw rod to rotate, and the second screw rod sleeve drives the second sliding seat to linearly move along the direction of the second sliding rail.

Preferably, the third driving assembly comprises a third motor, a first transmission belt, a support plate, a third screw rod and at least two support rods, wherein the support rods are vertically inserted into the second sliding seat; the support plate is horizontally arranged at the upper end of the support rod; the third motor is connected to the support plate; the upper end of the third screw rod is rotatably connected to the support plate, and the lower end of the third screw rod is inserted into the second sliding seat and is in threaded connection with the second sliding seat; the first transmission belt is connected to the output end of the third motor and the third screw rod and drives the third screw rod to rotate, and the third screw rod drives the support plate and the support rod to integrally lift and move; the connecting part is connected to the lower end of the supporting rod and moves up and down along with the supporting rod;

the fourth driving assembly comprises a fourth motor and a second transmission belt, the fourth motor is connected to the lower end of the supporting rod, the second transmission belt is connected to the output end and the connecting portion of the fourth motor, and the fourth motor drives the connecting portion to rotate.

Preferably, the connecting part further comprises a connecting seat, a driving wheel, a fulcrum shaft, a pressing seat and a first spring, wherein the connecting seat is connected to the lower end of the supporting rod; the fulcrum shaft is rotatably inserted on the connecting seat and extends downwards; the transmission wheel is sleeved and fixed on the fulcrum, and the second transmission belt is connected with the transmission wheel and drives the transmission wheel and the fulcrum to rotate; the pressure seat is connected with the lower end of the fulcrum shaft, and a first spring groove with an open bottom is arranged in the pressure seat; the first spring is vertically inserted in the first spring groove.

Preferably, the connecting part further comprises an adjusting seat, an upper seat body, a lower seat body and a connecting screw rod, wherein the adjusting seat is arranged at the lower part of the pressing seat and is connected with the first spring; the upper seat body is arranged in the middle of the adjusting seat, and the lower part of the upper seat body is provided with an arc groove body with a downward opening; the lower seat body is arranged below the upper seat body at intervals, the flexible connecting plate is positioned in a gap between the upper seat body and the lower seat body, and the upper part of the lower seat body is provided with an arc-shaped groove body with an upward opening; the self-adaptive ball is arranged in the arc-shaped grooves of the upper seat body and the lower seat body and can rotate freely; the connecting screw rods comprise at least two connecting screw rods, and the connecting screw rods are connected between the adjusting seat and the flexible connecting plate and between the flexible connecting plate and the crimping part.

Preferably, the crimping part comprises a crimping seat, a second spring, a clamping sleeve and a limiting sleeve, wherein the crimping seat is connected with the flexible connecting plate through a connecting screw rod, and the lower seat body is arranged at the upper part of the crimping seat; at least two second spring grooves with downward openings are arranged in the crimping seat; the second spring comprises at least two second spring grooves which are vertically arranged in the second spring grooves; the clamping sleeve is slidably inserted into the second spring groove, the upper part of the clamping sleeve is connected with the second spring, an inclined pressing surface is arranged on the inner side wall of the lower part of the clamping sleeve, and the inclined pressing surface gradually extends downwards from inside to outside; the limiting sleeve is arranged in the second spring groove and close to the lower portion, the upper portion of the limiting sleeve abuts against the clamping sleeve, and the clamping sleeve is prevented from sliding out of the second spring groove downwards.

Preferably, the crimping part further comprises at least two ball clamping grooves, a ball clamping groove, a push sleeve and a clamping groove, wherein the ball clamping grooves are formed in the side wall of the lower portion of the crimping seat and penetrate through the crimping seat from inside to outside; the clamping balls comprise at least two clamping balls which are movably arranged in the clamping ball grooves; the push sleeve is sleeved outside the clamping sleeve, and the push sleeve is stressed to drive the clamping sleeve to move upwards to overcome the elastic force of the second spring, so that the clamping ball slides outwards; above-mentioned draw-in groove is cyclic annular cell body, and the draw-in groove sets up on the lateral wall of crimping head, and when the cutting ferrule descends, the oblique pressure face inwards will block the ball draw-in groove of impressing to connect the crimping head.

Preferably, the replacing mechanism comprises a replacing support, a replacing support plate, a replacing cylinder, a replacing push plate and a push rod, wherein the replacing support is arranged on the rack, and at least two replacing stations are arranged on the replacing support at intervals; the replacing support plate is horizontally arranged in the replacing support; the replacing cylinder is connected to the lower part of the replacing support plate, and the output end of the replacing cylinder penetrates through the replacing support plate to extend upwards; the replacing push plate is horizontally arranged on the replacing support plate and is connected with the output end of the replacing air cylinder, and the replacing air cylinder drives the replacing push plate to move up and down; the push rods comprise at least two push rods, the push rods are vertically arranged on the replacing push plate corresponding to the replacing stations, and penetrate through the replacing support to be upwards inserted into the crimping head, the replacing push plate drives the push rods to move, the push rods upwards support and push the pushing sleeves, and the clamping balls slide out of the clamping grooves so as to connect and replace the crimping head.

The beneficial effects of the utility model reside in that:

the utility model designs a self-adaptive crimping machine which adopts self-adaptive balls, flexible connecting plates and spring connection to realize self-adaptive parallel lamination of crimping surfaces and realizes automatic disassembly and assembly of a crimping head through a sliding sleeve clamping structure aiming at the defects and the defects existing in the prior art; the utility model mainly solves the technical problem that after the PCB moves in place due to the influence of factors in the actual crimping process such as installation errors and motion errors, the compression surface of the pre-inserted connector on the PCB and the crimping surface of the crimping head are not parallel and overlapped, and when the crimping head presses down the connector, different stitch compression angles and different compression time of the connector are different, so that the crimping fails; and simultaneously, the utility model discloses still a technical problem that solves is the dismantlement and the equipment problem of crimping head.

In order to solve the technical problems, the utility model discloses a crimping mechanism and a replacement mechanism are designed on the basis of the traditional crimping machine originally, the crimping mechanism stretches over the transmission belt of the crimping machine and is driven by the first driving component to move linearly in the horizontal plane; meanwhile, a second driving assembly, a third driving assembly and a fourth driving assembly which are arranged in the crimping mechanism respectively realize another linear motion, lifting motion and rotary motion in the horizontal plane. Particularly, the connecting part of the crimping mechanism of the utility model is a bearing structure through a support shaft which is rotatably arranged below the connecting seat, a driving wheel which is sleeved outside the support shaft is connected with a fourth driving belt of a fourth driving component, and the driving belt drives the driving wheel and the support shaft to realize integral rotation so as to adjust the crimping angle; meanwhile, the utility model takes the pressure seat as the supporting structure, the pressure seat is vertically provided with a first spring groove with a downward opening, the first spring groove is vertically provided with a first spring, the lower part of the first spring is connected with the adjusting seat, the flexible connection of the adjusting seat is realized by utilizing the characteristic of the first spring, and the angle of the plane where the adjusting seat is positioned can be adjusted in real time; flexible connecting plates are arranged below the adjusting seat at intervals, an upper seat body and a lower seat body are respectively arranged on the upper side and the lower side of each flexible connecting plate, arc-shaped groove bodies are correspondingly arranged on the upper seat body and the lower seat body, and the self-adaptive ball bodies are arranged in the two arc-shaped groove bodies and rotate freely; in the crimping process, after the crimping head receives upward reaction force of the connector, the reaction force acts on the flexible connecting plate, so that the flexible circuit board is adjusted to be parallel to the compression platform, and meanwhile, the self-adaptive ball body synchronously rotates along with the plane adjustment of the flexible circuit board; this kind of structural function along with the different automatic adaptation of crimping condition carries out the plane adjustment has guaranteed crimping angle and the crimping time point uniformity of each stitch of connector when crimping effectively, has greatly promoted the crimping quality. In addition, the utility model is provided with a crimping part below the connecting part, a plurality of second spring grooves are vertically arranged inside the crimping seat of the crimping part, second springs are arranged in the second spring grooves, the lower part of each second spring is inserted with a clamping sleeve extending to the lower part of the corresponding second spring groove, the inner side wall of the lower part of each second spring is provided with an inclined pressing surface which gradually inclines outwards from top to bottom, a limiting sleeve is arranged in the corresponding second spring groove below the clamping sleeve, and the limiting sleeve is fixedly arranged so as to support the limiting clamping sleeve and prevent the clamping sleeve from sliding out downwards; meanwhile, the side wall of the lower part of the crimping seat is provided with a ball clamping groove, and a ball is movably arranged in the ball clamping groove; correspondingly, the outer side wall of the upper part of the crimping head of the utility model is provided with an inward concave clamping groove; when the crimping head is inserted into the crimping seat from bottom to top, the clamping sleeve slides downwards under the action of the elastic force of the second spring, and the inclined pressing surface presses inwards to force the clamping ball to slide into the clamping groove of the crimping head, so that the crimping head is detachably connected; when the crimping head needs to be replaced, an upward acting force acts on the clamping sleeve, so that the clamping sleeve overcomes the elastic force of the second spring and slides upwards, the inclined pressing surface gradually leaves the clamping ball, the clamping ball slides out of the clamping groove, and the crimping head is in a movable state and can be flexibly detached from the crimping seat; through this kind of sliding press-in snap-fit structure function, the efficiency of crimping head replacement is greatly promoted.

In addition, the utility model is provided with a replacing mechanism aiming at the replacing requirement of the press-connecting head, the replacing mechanism is arranged on the frame at one side of the PCB transmission belt of the press-connecting machine, and a plurality of replacing stations are arranged on the replacing mechanism at intervals in parallel so as to place the press-connecting heads with different sizes and types; the replacing mechanism drives the replacing push plate to move upwards integrally through the replacing cylinder, so that a push rod vertically arranged on the replacing push plate upwards penetrates through the replacing support to be inserted into the pressing joint and upwards pushes against the clamping sleeve to slide out a clamping ball from a clamping groove in the upper part of the pressing joint, the pressing joint downwards slides to the replacing support under the action of self gravity, and the pressing joint moves upwards to press the pressing joint upwards at the moment to separate the pressing joint from the pressing joint; when the crimping seat moves to the position above the crimping head to be loaded, the push rod retracts downwards, the crimping seat is sleeved downwards onto the crimping head, the clamping ball is pressed into the clamping groove under the action of the inclined pressing surface, and the crimping head is connected with the crimping seat, so that the crimping head is automatically and efficiently replaced.

Drawings

Fig. 1 is a schematic perspective view of embodiment 1 of the present invention.

Fig. 2 is a second schematic perspective view of embodiment 1 of the present invention.

Fig. 3 is one of schematic perspective views of a crimping mechanism according to embodiment 1 of the present invention.

Fig. 4 is a second schematic perspective view of a crimping mechanism according to embodiment 1 of the present invention.

Fig. 5 is a third schematic perspective view of a crimping mechanism according to embodiment 1 of the present invention.

Fig. 6 is a fourth schematic perspective view of a crimping mechanism according to embodiment 1 of the present invention.

Fig. 7 is a fifth perspective view of the crimping mechanism according to embodiment 1 of the present invention.

Fig. 8 is a schematic perspective view of a connection portion and a crimping portion according to embodiment 1 of the present invention.

Fig. 9 is a schematic view of a component hiding structure of a connecting portion and a crimping portion according to embodiment 1 of the present invention.

Fig. 10 is a second schematic view of the component hiding structure of the connecting portion and the crimping portion according to embodiment 1 of the present invention.

Fig. 11 is a front view of a connecting portion and a crimping portion according to embodiment 1 of the present invention.

Fig. 12 is a cross-sectional view of section a-a in fig. 11.

Fig. 13 is a front view of a crimping portion according to embodiment 1 of the present invention.

Fig. 14 is a cross-sectional view of section B-B of fig. 13.

Fig. 15 is one of schematic perspective views of a replacement mechanism according to embodiment 1 of the present invention.

Fig. 16 is a second perspective view of the replacing mechanism according to embodiment 1 of the present invention.

Fig. 17 is a third schematic perspective view of a replacing mechanism according to embodiment 1 of the present invention.

Fig. 18 is a schematic perspective view of embodiment 2 of the present invention.

Fig. 19 is a second perspective view of embodiment 2 of the present invention.

Fig. 20 is a schematic perspective view of a crimping mechanism according to embodiment 2 of the present invention.

Detailed Description

The invention will be further described with reference to the accompanying drawings:

example 1: as shown in fig. 1 to 17, the technical solution adopted in embodiment 1 of the present invention is as follows: a crimping surface self-adaptive crimping machine comprises a rack 1 and a transmission belt 2 arranged on the rack 1, wherein a PCB to be crimped is placed on the transmission belt 2 and is linearly transmitted forwards, and the crimping machine also comprises a first driving assembly, a crimping mechanism 6 and a replacing mechanism 3, wherein the first driving assembly is arranged above the transmission belt 2 in a spanning mode along a direction perpendicular to the transmission belt 2; the crimping mechanism 6 is connected to the first driving assembly and is driven by the first driving assembly to move linearly; the crimping mechanism 6 comprises a driving part, a connecting part 614 and a crimping part 615, wherein the driving part is connected to the output end of the first driving component, the connecting part 614 is connected to the output end of the driving component, and the driving component drives the linear motion, the lifting motion and the rotating motion; a crimping portion 615 is provided below the connecting portion 614 and spaced apart from the connecting portion 614, and a crimping head 61510 is detachably attached to a lower portion of the crimping portion 615; a self-adaptive sphere 6146 and a flexible connecting plate 6145 are arranged in a gap space between the crimping part 615 and the connecting part 614, the self-adaptive sphere 6146 is rotatably connected in a gap between the flexible connecting plate 6145 and the connecting part 614 or a gap between the flexible connecting plate 6145 and the crimping part 615, the crimping part 615 presses down a connector on the PCB, and the flexible connecting plate 6145 is self-adaptively adjusted to be parallel to a pressed plane by the reaction force of the pressed plane of the connector; the replacing mechanism 3 is arranged on the side part of the transmission belt 2, at least two replacing stations are arranged on the replacing mechanism 3 at intervals, and the pressing joint 61510 is detachably arranged on the replacing stations.

The first driving assembly comprises two supports, a first motor 4 and a first screw rod 5, wherein the two supports are arranged on the rack 1 in parallel at intervals along the direction vertical to the conveying belt 2, the upper parts of the supports are provided with slide rails, and the compression joint mechanism 6 is embedded on the slide rails in a sliding manner; the first screw rods 5 comprise two, the two first screw rods 5 are rotatably arranged on the two brackets, and the first screw rods 5 are in threaded connection with the crimping mechanism 6; the two first motors 4 are respectively arranged at the end parts of the first screw rods 5, and the crimping mechanism 6 is enabled to linearly slide along the sliding rail by driving the first screw rods 5 to rotate.

The driving portion comprises a crimping support 61, a second driving assembly, a third driving assembly and a fourth driving assembly, wherein the bottom of the crimping support 61 is slidably connected with the sliding rail, first screw rod sleeves 62 are respectively arranged at two ends of the crimping support 61, the first screw rod sleeves 62 are sleeved on the first screw rods 5, the first screw rods 5 rotate, and the first screw rod sleeves 62 drive the crimping support 61 to move linearly.

The second driving assembly comprises a second motor 63, a second screw 64, a second slide rail 65, a second slide 66 and a third slide rail 67, the second screw 64 is rotatably arranged on the side wall of the crimping bracket 61, and the second screw 64 is arranged perpendicular to the direction of the first screw 5; the second slide rails 65 are arranged in parallel at intervals of the second lead screws 64; the third slide rail 67 is provided at the bottom of the pressure welding holder 61; the cross section of the second sliding seat 66 is L-shaped, and the second sliding seat 66 is slidably embedded in the second sliding rail 65 and the third sliding rail 67 and is connected with the second screw rod 64 through a second screw rod sleeve; the second motor 63 is disposed at an end of the second lead screw 64, and an output end of the second motor is connected to the second lead screw 64, the second motor 63 drives the second lead screw 64 to rotate, and the second lead screw sleeve drives the second slide 66 to move linearly along the second slide rail 65.

The third driving assembly comprises a third motor 68, a first transmission belt 69, a support plate 610, a third screw rod 611 and support rods 612, wherein the number of the support rods 612 is at least two, and the support rods 612 are vertically inserted into the second sliding seat 66; the support plate 610 is horizontally arranged at the upper end of the support rod 612; the third motor 68 is connected to the support plate 610; the upper end of the third screw rod 611 is rotatably connected to the support plate 610, and the lower end of the third screw rod 611 is inserted into the second slide carriage 66 and is in threaded connection with the second slide carriage 66; the first transmission belt 69 is connected to the output end of the third motor 68 and the third screw rod 611, and drives the third screw rod 611 to rotate, and the third screw rod 611 drives the support plate 610 and the support rod 612 to integrally lift; the connecting part 614 is connected to the lower end of the supporting rod 612 and moves up and down along with the supporting rod 612;

the fourth driving assembly includes a fourth motor 613 and a second belt, the fourth motor 613 is connected to the lower end of the rod 612, the second belt is connected to the output end and the connecting portion of the fourth motor 613, and the fourth motor 613 drives the connecting portion to rotate.

The connecting portion 614 further includes a connecting seat 6141, a driving wheel 6142, a fulcrum 6143, a pressing seat 6144 and a first spring 6149, wherein the connecting seat 6141 is connected to the lower end of the supporting rod 612; the support shaft 6143 is rotatably inserted into the connecting seat 6141 and extends downward; the driving wheel 6142 is sleeved and fixed on the support shaft 6143, and the second driving belt is connected with the driving wheel 6142 and drives the driving wheel 6142 and the support shaft 6143 to rotate; the pressing base 6144 is connected with the lower end of the fulcrum 6143, and a first spring groove with an open bottom is arranged in the pressing base 6144; the first spring 6149 is vertically inserted into the first spring slot.

The connecting portion 614 further includes an adjusting seat 6147, an upper seat 6148, a lower seat 61410 and a connecting screw 61411, wherein the adjusting seat 6147 is disposed at the lower portion of the pressing seat 6144 and connected to the first spring 6149; the upper seat body 6148 is arranged in the middle of the adjusting seat 6147, and the lower part of the upper seat body 6148 is provided with an arc groove body with a downward opening; the lower seat body 61410 is arranged below the upper seat body 6148 at intervals, the flexible connecting plate 6145 is positioned in a gap between the upper seat body 6148 and the lower seat body 61410, and the upper part of the lower seat body 61410 is provided with an arc-shaped groove body with an upward opening; the adaptive sphere 6146 is arranged in the arc-shaped groove of the upper seat body 6148 and the lower seat body 61410 and rotates freely; the connecting screw 61411 comprises at least two connecting screws 61411, and the connecting screws 61411 are connected between the adjusting seat 6147 and the flexible connecting plate 6145 and between the flexible connecting plate 6145 and the crimping part 615.

The crimping part 615 includes a crimping seat 6151, a second spring 6153, a clamping sleeve 6154 and a stop sleeve 6159, wherein the crimping seat 6151 is connected with the flexible connecting plate 6145 through a connecting screw 61411, and the lower seat body 61410 is arranged at the upper part of the crimping seat 6151; at least two second spring slots 6152 with downward openings are arranged in the pressure connecting seat 6151; the second spring 6153 comprises at least two, and the second spring slot 6152 is vertically arranged in the second spring slot 6152; the cutting sleeve 6154 is slidably inserted into the second spring groove 6152, the upper part of the cutting sleeve 6154 is connected with the second spring 6153, the inner side wall of the lower part of the cutting sleeve 6154 is provided with an inclined pressing surface 6155, and the inclined pressing surface 6155 gradually extends downwards from inside to outside; the limiting sleeve 6159 is disposed in the second spring slot 6152 and close to the lower portion, and the upper portion of the limiting sleeve 6159 abuts against the clamping sleeve 6154, so that the clamping sleeve 6154 is prevented from sliding out of the second spring slot 6152 downward.

The crimping part 615 further includes at least two ball clamping grooves 6156, ball clamping grooves 6157, push sleeves 6158 and clamping grooves 61511, wherein the ball clamping grooves 6157 are formed in the side wall of the lower portion of the crimping seat 6151, and the ball clamping grooves 6157 penetrate through the crimping seat 6151 from inside to outside; the number of the ball clamping grooves 6157 is at least two, and the ball clamping grooves 6156 are movably arranged in the ball clamping grooves 6157; the push sleeve 6158 is sleeved outside the sleeve 6154, and the push sleeve 6158 is stressed to drive the sleeve 6154 to move upwards against the elastic force of the second spring 6153, so that the clamping ball 6156 slides outwards; the clamping groove 61511 is an annular groove body, the clamping groove 61511 is arranged on the outer side wall of the pressure welding head 61510, and when the clamping sleeve 6154 descends, the inclined pressing surface 6155 presses the clamping ball 6156 into the clamping groove 61511 so as to be connected with the pressure welding head 61510.

The replacing mechanism 3 comprises a replacing support 31, a replacing support plate 32, a replacing cylinder 33, a replacing push plate 34 and a push rod 35, wherein the replacing support 31 is arranged on the rack 1, and at least two replacing stations are arranged on the replacing support 31 at intervals; the replacement support plate 32 is horizontally arranged in the replacement support 31; the replacement cylinder 33 is connected to the lower part of the replacement support plate 32, and the output end of the replacement cylinder extends upwards through the replacement support plate 32; the replacing push plate 34 is horizontally arranged on the replacing support plate 32 and is connected with the output end of the replacing air cylinder 33, and the replacing air cylinder 33 drives the replacing push plate 34 to move up and down; the push rods 35 comprise at least two push rods 35, the push rods 35 are vertically arranged on the replacing push plate 34 corresponding to the replacing station and penetrate through the replacing support 31 to be upwards inserted into the pressing joint 61510, the replacing push plate 34 drives the push rods 35 to move, and the push rods 35 upwards abut against the push sleeve 6158 to enable the clamping balls 6156 to slide out of the clamping grooves 61511 so as to be connected with the replacing pressing joint 61510.

Furthermore, the utility model designs a self-adaptive crimping machine of crimping surface, which adopts the self-adaptive sphere, the flexible connecting plate and the spring connection to realize self-adaptive parallel lamination of the crimping surface and realizes automatic disassembly and assembly of the crimping head through the sliding sleeve clamping structure; the utility model mainly solves the technical problem that after the PCB moves in place due to the influence of factors in the actual crimping process such as installation errors and motion errors, the compression surface of the pre-inserted connector on the PCB and the crimping surface of the crimping head are not parallel and overlapped, and when the crimping head presses down the connector, different stitch compression angles and different compression time of the connector are different, so that the crimping fails; and simultaneously, the utility model discloses still a technical problem that solves is the dismantlement and the equipment problem of crimping head. In order to solve the technical problems, the utility model discloses a crimping mechanism and a replacement mechanism are designed on the basis of the traditional crimping machine originally, the crimping mechanism stretches over the transmission belt of the crimping machine and is driven by the first driving component to move linearly in the horizontal plane; meanwhile, a second driving assembly, a third driving assembly and a fourth driving assembly which are arranged in the crimping mechanism respectively realize another linear motion, lifting motion and rotary motion in the horizontal plane. Particularly, the connecting part of the crimping mechanism of the utility model is a bearing structure through a support shaft which is rotatably arranged below the connecting seat, a driving wheel which is sleeved outside the support shaft is connected with a fourth driving belt of a fourth driving component, and the driving belt drives the driving wheel and the support shaft to realize integral rotation so as to adjust the crimping angle; meanwhile, the utility model takes the pressure seat as the supporting structure, the pressure seat is vertically provided with a first spring groove with a downward opening, the first spring groove is vertically provided with a first spring, the lower part of the first spring is connected with the adjusting seat, the flexible connection of the adjusting seat is realized by utilizing the characteristic of the first spring, and the angle of the plane where the adjusting seat is positioned can be adjusted in real time; flexible connecting plates are arranged below the adjusting seat at intervals, an upper seat body and a lower seat body are respectively arranged on the upper side and the lower side of each flexible connecting plate, arc-shaped groove bodies are correspondingly arranged on the upper seat body and the lower seat body, and the self-adaptive ball bodies are arranged in the two arc-shaped groove bodies and rotate freely; in the crimping process, after the crimping head receives upward reaction force of the connector, the reaction force acts on the flexible connecting plate, so that the flexible circuit board is adjusted to be parallel to the compression platform, and meanwhile, the self-adaptive ball body synchronously rotates along with the plane adjustment of the flexible circuit board; this kind of structural function along with the different automatic adaptation of crimping condition carries out the plane adjustment has guaranteed crimping angle and the crimping time point uniformity of each stitch of connector when crimping effectively, has greatly promoted the crimping quality. In addition, the utility model is provided with a crimping part below the connecting part, a plurality of second spring grooves are vertically arranged inside the crimping seat of the crimping part, second springs are arranged in the second spring grooves, the lower part of each second spring is inserted with a clamping sleeve extending to the lower part of the corresponding second spring groove, the inner side wall of the lower part of each second spring is provided with an inclined pressing surface which gradually inclines outwards from top to bottom, a limiting sleeve is arranged in the corresponding second spring groove below the clamping sleeve, and the limiting sleeve is fixedly arranged so as to support the limiting clamping sleeve and prevent the clamping sleeve from sliding out downwards; meanwhile, the side wall of the lower part of the crimping seat is provided with a ball clamping groove, and a ball is movably arranged in the ball clamping groove; correspondingly, the outer side wall of the upper part of the crimping head of the utility model is provided with an inward concave clamping groove; when the crimping head is inserted into the crimping seat from bottom to top, the clamping sleeve slides downwards under the action of the elastic force of the second spring, and the inclined pressing surface presses inwards to force the clamping ball to slide into the clamping groove of the crimping head, so that the crimping head is detachably connected; when the crimping head needs to be replaced, an upward acting force acts on the clamping sleeve, so that the clamping sleeve overcomes the elastic force of the second spring and slides upwards, the inclined pressing surface gradually leaves the clamping ball, the clamping ball slides out of the clamping groove, and the crimping head is in a movable state and can be flexibly detached from the crimping seat; through this kind of sliding press-in snap-fit structure function, the efficiency of crimping head replacement is greatly promoted. In addition, the utility model is provided with a replacing mechanism aiming at the replacing requirement of the press-connecting head, the replacing mechanism is arranged on the frame at one side of the PCB transmission belt of the press-connecting machine, and a plurality of replacing stations are arranged on the replacing mechanism at intervals in parallel so as to place the press-connecting heads with different sizes and types; the replacing mechanism drives the replacing push plate to move upwards integrally through the replacing cylinder, so that a push rod vertically arranged on the replacing push plate upwards penetrates through the replacing support to be inserted into the pressing joint and upwards pushes against the clamping sleeve to slide out a clamping ball from a clamping groove in the upper part of the pressing joint, the pressing joint downwards slides to the replacing support under the action of self gravity, and the pressing joint moves upwards to press the pressing joint upwards at the moment to separate the pressing joint from the pressing joint; when the crimping seat moves to the position above the crimping head to be loaded, the push rod retracts downwards, the crimping seat is sleeved downwards onto the crimping head, the clamping ball is pressed into the clamping groove under the action of the inclined pressing surface, and the crimping head is connected with the crimping seat, so that the crimping head is automatically and efficiently replaced.

Example 2: as shown in fig. 18 to 20, embodiment 2 of the present invention has a simplified structure for the crimping mechanism compared to embodiment 1, the first transmission belt in embodiment 1 is omitted, and the first motor directly drives the third screw rod to rotate, so as to implement the lifting control function; compared with embodiment 1, the structure design is simpler, and the production cost of the equipment is reduced.

The embodiments of the present invention are only for describing the specific implementation thereof, and are not limited to the scope of protection thereof. The present invention is not limited to the above embodiments, but can be modified in various ways without departing from the scope of the present invention.

Claims (10)

1. The utility model provides a crimping face self-adaptation formula press-connection machine, includes frame (1) and sets up transmission band (2) on frame (1), places the PCB board that remains the crimping on transmission band (2) to with the straight line transmission of PCB board forward, its characterized in that: the automatic crimping device further comprises a first driving assembly, a crimping mechanism (6) and a replacing mechanism (3), wherein the first driving assembly is arranged above the conveying belt (2) in a spanning mode along a direction perpendicular to the conveying belt (2); the crimping mechanism (6) is connected to the first driving assembly and is driven by the first driving assembly to move linearly; the crimping mechanism (6) comprises a driving part, a connecting part (614) and a crimping part (615), wherein the driving part is connected to the output end of the first driving component, and the connecting part (614) is connected to the output end of the driving component and is driven by the driving component to perform linear motion, lifting motion and rotating motion; the crimping part (615) is arranged below the connecting part (614) and is arranged at a distance from the connecting part (614), and a crimping head (61510) is detachably connected to the lower part of the crimping part (615); a self-adaptive ball body (6146) and a flexible connecting plate (6145) are arranged in a gap space between the crimping part (615) and the connecting part (614), the self-adaptive ball body (6146) is rotatably connected in a gap between the flexible connecting plate (6145) and the connecting part (614) or a gap between the flexible connecting plate (6145) and the crimping part (615), the crimping part (615) presses down a connector on the PCB, and the flexible connecting plate (6145) is self-adaptively adjusted to a direction parallel to a pressed plane by the reaction force of the pressed plane of the connector; the replacing mechanism (3) is arranged on the side portion of the conveying belt (2), at least two replacing stations are arranged on the replacing mechanism (3) at intervals, and the replacing stations are detachably provided with the pressing joints (61510).

2. The adaptive crimping machine as claimed in claim 1, wherein: the first driving assembly comprises two supports, a first motor (4) and a first screw rod (5), the two supports are arranged on the rack (1) in parallel at intervals along a direction perpendicular to the conveying belt (2), a sliding rail is arranged at the upper part of each support, and the compression joint mechanism (6) is embedded on the sliding rail in a sliding manner; the first screw rods (5) comprise two, the two first screw rods (5) are rotatably arranged on the two brackets, and the first screw rods (5) are in threaded connection with the crimping mechanism (6); the two first motors (4) are respectively arranged at the end parts of the first screw rods (5), and the crimping mechanism (6) slides linearly along the sliding rail by driving the first screw rods (5) to rotate.

3. The adaptive crimping machine as claimed in claim 2, wherein: the driving part comprises a crimping support (61), a second driving assembly, a third driving assembly and a fourth driving assembly, wherein the bottom of the crimping support (61) is connected with the sliding rail in a sliding mode, first screw rod sleeves (62) are arranged at two ends of the crimping support (61) respectively, the first screw rod sleeves (62) are sleeved on the first screw rods (5), the first screw rods (5) rotate, and the first screw rod sleeves (62) drive the crimping support (61) to move linearly.

4. The adaptive crimping machine as claimed in claim 3, wherein: the second driving assembly comprises a second motor (63), a second screw rod (64), a second slide rail (65), a second slide seat (66) and a third slide rail (67), the second screw rod (64) is rotatably arranged on the side wall of the crimping support (61), and the second screw rod (64) is arranged in a direction perpendicular to the first screw rod (5); the second slide rails (65) are arranged in parallel at intervals of the second screw rods (64); the third slide rail (67) is arranged at the bottom of the crimping bracket (61); the cross section of the second sliding seat (66) is L-shaped, and the second sliding seat (66) can be embedded on the second sliding rail (65) and the third sliding rail (67) in a sliding way and is connected with the second screw rod (64) through a second screw rod sleeve; the second motor (63) is arranged at the end part of the second screw rod (64), the output end of the second motor is connected with the second screw rod (64), the second motor (63) drives the second screw rod (64) to rotate, and the second screw rod sleeve drives the second sliding seat (66) to linearly move along the direction of the second sliding rail (65).

5. The adaptive crimping machine as claimed in claim 4, wherein: the third driving assembly comprises a third motor (68), a first transmission belt (69), a support plate (610), a third screw rod (611) and support rods (612), wherein the number of the support rods (612) is at least two, and the support rods (612) are vertically inserted in the second sliding seat (66); the support plate (610) is horizontally arranged at the upper end of the support rod (612); the third motor (68) is connected to the support plate (610); the upper end of the third screw rod (611) is rotatably connected to the support plate (610), and the lower end of the third screw rod (611) is inserted into the second sliding seat (66) and is in threaded connection with the second sliding seat (66); the first transmission belt (69) is connected to the output end of the third motor (68) and the third screw rod (611) and drives the third screw rod (611) to rotate, and the third screw rod (611) drives the support plate (610) and the support rod (612) to integrally lift and move; the connecting part (614) is connected to the lower end of the supporting rod (612) and moves up and down along with the supporting rod (612);

the fourth driving component comprises a fourth motor (613) and a second transmission belt, the fourth motor (613) is connected to the lower end of the supporting rod (612), the second transmission belt is connected to the output end and the connecting part of the fourth motor (613), and the fourth motor (613) drives the connecting part to rotate.

6. The adaptive crimping machine as claimed in claim 5, wherein: the connecting part (614) also comprises a connecting seat (6141), a driving wheel (6142), a fulcrum (6143), a pressing seat (6144) and a first spring (6149), wherein the connecting seat (6141) is connected to the lower end of the supporting rod (612); the fulcrum shaft (6143) is rotatably inserted on the connecting seat (6141) and extends downwards; the driving wheel (6142) is sleeved and fixed on the fulcrum shaft (6143), and a second driving belt is connected with the driving wheel (6142) and drives the driving wheel (6142) and the fulcrum shaft (6143) to rotate; the pressure seat (6144) is connected with the lower end of the fulcrum shaft (6143), and a first spring groove with an open bottom is arranged in the pressure seat (6144); the first spring (6149) is vertically inserted in the first spring groove.

7. The adaptive crimping machine as claimed in claim 6, wherein: the connecting part (614) further comprises an adjusting seat (6147), an upper seat body (6148), a lower seat body (61410) and a connecting screw rod (61411), wherein the adjusting seat (6147) is arranged at the lower part of the pressing seat (6144) and is connected with a first spring (6149); the upper seat body (6148) is arranged in the middle of the adjusting seat (6147), and the lower part of the upper seat body (6148) is provided with an arc groove body with a downward opening; the lower seat body (61410) is arranged below the upper seat body (6148) at intervals, the flexible connecting plate (6145) is positioned in a gap between the upper seat body (6148) and the lower seat body (61410), and the upper part of the lower seat body (61410) is provided with an arc-shaped groove body with an upward opening; the self-adaptive ball (6146) is arranged in the arc-shaped groove bodies of the upper seat body (6148) and the lower seat body (61410) and can rotate freely; the connecting screw rods (61411) comprise at least two connecting screw rods (61411), and the connecting screw rods are connected between the adjusting seat (6147) and the flexible connecting plate (6145) and between the flexible connecting plate (6145) and the crimping part (615).

8. The adaptive crimping machine as claimed in claim 7, wherein: the crimping part (615) comprises a crimping seat (6151), a second spring (6153), a clamping sleeve (6154) and a limiting sleeve (6159), wherein the crimping seat (6151) is connected with the flexible connecting plate (6145) through a connecting screw (61411), and the lower seat body (61410) is arranged at the upper part of the crimping seat (6151); at least two second spring grooves (6152) with downward openings are arranged in the pressure joint seat (6151); the number of the second springs (6153) is at least two, and the second spring slots (6152) are vertically arranged in the second spring slots (6152); the clamping sleeve (6154) is slidably inserted into the second spring groove (6152), the upper part of the clamping sleeve (6154) is connected with the second spring (6153), the inner side wall of the lower part of the clamping sleeve (6154) is provided with an inclined pressing surface (6155), and the inclined pressing surface (6155) gradually extends downwards from inside to outside; the limiting sleeve (6159) is arranged in the second spring groove (6152) and is close to the lower part, and the upper part of the limiting sleeve (6159) props against the clamping sleeve (6154) to prevent the clamping sleeve (6154) from sliding out of the second spring groove (6152) downwards.

9. The adaptive crimping machine as claimed in claim 8, wherein: the crimping part (615) further comprises at least two ball clamping grooves (6156), ball clamping grooves (6157), a push sleeve (6158) and a clamping groove (61511), wherein the ball clamping grooves (6157) are formed in the side wall of the lower portion of the crimping seat (6151) and penetrate through the crimping seat (6151) from inside to outside; the number of the clamping balls (6156) is at least two, and the clamping balls (6156) can be movably arranged in the ball clamping groove (6157); the push sleeve (6158) is sleeved outside the clamping sleeve (6154), and the push sleeve (6158) is stressed to drive the clamping sleeve (6154) to move upwards to overcome the elastic force of the second spring (6153) so that the clamping ball (6156) slides outwards; the clamping groove (61511) is an annular groove body, the clamping groove (61511) is arranged on the outer side wall of the pressing joint (61510), and when the clamping sleeve (6154) descends, the clamping ball (6156) is pressed into the clamping groove (61511) by the inclined pressing surface (6155) so as to be connected with the pressing joint (61510).

10. The adaptive crimping machine as claimed in claim 9, wherein: the replacing mechanism (3) comprises a replacing support (31), a replacing support plate (32), a replacing cylinder (33), a replacing push plate (34) and a push rod (35), wherein the replacing support (31) is arranged on the rack (1), and at least two replacing stations are arranged on the replacing support (31) at intervals; the replacing support plate (32) is horizontally arranged in the replacing support (31); the replacing cylinder (33) is connected to the lower part of the replacing support plate (32), and the output end of the replacing cylinder penetrates through the replacing support plate (32) to extend upwards; the replacing push plate (34) is horizontally arranged on the replacing support plate (32) and is connected with the output end of the replacing air cylinder (33), and the replacing air cylinder (33) drives the replacing push plate (34) to move up and down; the push rods (35) comprise at least two push rods, the push rods (35) are vertically arranged on the replacing push plate (34) corresponding to the replacing station and penetrate through the replacing support (31) to be upwards inserted into the crimping head (61510), the replacing push plate (34) drives the push rods (35) to move, the push rods (35) upwards support and push the push sleeves (6158), and the clamping balls (6156) slide out of the clamping grooves (61511) so as to be connected with the replacing crimping head (61510).

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