CN217193751U - Automatic lug plate mounting structure for lamp holder - Google Patents

Abstract

The utility model relates to a lug automatic installation structure for lamp stand, it includes: the supporting assembly comprises a bottom plate, a rotary disc and a fixed seat, wherein the rotary disc is rotatably arranged at the top of the bottom plate, and the fixed seat is circumferentially fixed at the top of the rotary disc; the conveying assembly is fixed on the bottom plate and comprises a conveying plate, a conveying groove formed in the top of the conveying plate, a support plate arranged on one side of the conveying groove in a lifting mode, and a material carrying groove formed in the support plate and matched with the conveying groove in use; the clamping assembly is fixed on the bottom plate and comprises a side plate, a movable plate movably arranged on one side of the side plate, a lifting plate arranged on one side of the movable plate in a lifting mode and a sucker fixed at the bottom of the lifting plate and facing the material loading groove. The utility model discloses degree of automation is high, and the installation effectiveness is high, and the installation targets in place, can not appear the error, has saved artificial input moreover, practices thrift the cost.

Description

Automatic lug plate mounting structure for lamp holder

Technical Field

The utility model belongs to the technical field of the lamp stand equipment, concretely relates to lug automatic installation structure for lamp stand.

Background

Microwave ovens, as their name implies, are modern cooking utensils that heat food with microwaves, inside of which there is a lamp holder for mounting an induction lamp. The base body of the microwave oven lamp holder is a ceramic base, as shown in fig. 1, two positioning holes 11 are formed in the ceramic base 1, and rivets 12 are mounted in the positioning holes 11 and used for fixing elastic sheets and lugs 13. Still seted up two shell fragment grooves on the ceramic base 1, shell fragment one end is fixed on rivet 12, and the other end inserts the shell fragment inslot, then fixes a lug 13 on every rivet 12, and it can to rivet 12 pressure at last, and the shell fragment one side that inserts shell fragment groove 12 links to each other with the electric light, and the power cord links to each other with lug 13, realizes the transition of electric current through rivet 12 and shell fragment.

In the prior art, the wiring lug needs to be assembled manually, the wiring lug is small in size, the phenomenon that the assembly is not in place easily occurs in manual assembly, subsequent current testing is directly influenced, the manual assembly efficiency is low, manual input is needed in the early stage, and the cost is wasted.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the not enough of prior art and providing a lug automatic installation structure for lamp stand.

In order to achieve the above purpose, the utility model adopts the technical scheme that: an automatic mounting structure of a lug for a lamp holder, comprising:

the supporting assembly comprises a bottom plate, a rotary disc and a fixed seat, wherein the rotary disc is rotatably arranged at the top of the bottom plate, and the fixed seat is circumferentially fixed at the top of the rotary disc;

the conveying assembly is fixed on the bottom plate and comprises a conveying plate, a conveying groove formed in the top of the conveying plate, a support plate arranged on one side of the conveying groove in a lifting mode, and a material carrying groove formed in the support plate and matched with the conveying groove in use;

the clamping assembly is fixed on the bottom plate and comprises a side plate, a movable plate movably arranged on one side of the side plate, a lifting plate arranged on one side of the movable plate in a lifting manner, and a sucker fixed at the bottom of the lifting plate and facing the material loading groove.

Preferably, the supporting component further comprises a first supporting plate circumferentially fixed on the bottom plate and corresponding to the fixing seat, a guide pillar penetrating through the first supporting plate, a positioning plate fixed on one side of the guide pillar close to the fixing seat, a positioning groove formed on one side of the positioning plate, a lug placing groove formed on the top of the positioning plate, and a guide plate fixed on the guide pillar.

Preferably, the conveying assembly further comprises a cover plate fixed to the top of the conveying plate, fixing plates fixed to two sides of the conveying plate, a detector fixed to the fixing plates and facing the conveying groove, and a jacking cylinder used for driving the support plate to lift.

Preferably, the clamping assembly further comprises a first slide rail fixed on the side plate, a first slide block slidably mounted on the first slide rail, cylinder fixing plates fixed on two sides of the side plate, a moving cylinder fixed on the cylinder fixing plates and used for driving the moving plate to move, and an oil buffer arranged on the inner side of the cylinder fixing plates, wherein the moving plate is fixed on the first slide block.

Optimally, the clamping assembly further comprises a second slide rail fixed on the moving plate, a second slide block slidably mounted on the second slide rail, and a lifting cylinder fixed on the moving plate and used for driving the lifting plate to lift, and the lifting plate is fixed on the second slide block.

Preferably, the clamping assembly further comprises a second support plate fixed on the side plate bottom plate and a push-pull plate movably arranged on the second support plate and matched with the guide plate for use.

Preferably, the height of the conveying groove is larger than the thickness of the lug plate.

Optimally, two groups of conveying grooves are formed in the conveying plate, two groups of material carrying grooves are formed in the carrier plate, and two groups of lug plate placing grooves are formed in the positioning plate.

Because of above-mentioned technical scheme's application, compared with the prior art, the utility model have the following advantage:

the utility model discloses lug automatic installation structure degree of automation for lamp stand is high, by the automatic lug of carrying of conveyor components, and the push-and-pull board pulls out the locating plate under push-and-pull cylinder's effect, and the constant head tank card is fixed a position ceramic base on ceramic base, and the sucking disc is when adorning the lug, and ceramic base can not take place to remove, and the installation effectiveness is high, installs and targets in place, can not appear the error, has saved artificial input moreover, practices thrift the cost.

Drawings

FIG. 1 is a schematic structural view of the ceramic holder of the present invention;

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is a schematic structural view of the conveying assembly of the present invention;

FIG. 4 is a schematic structural view of a conveying plate according to the present invention;

FIG. 5 is a schematic structural view of the positioning plate of the present invention;

FIG. 6 is a diagram showing the positional relationship between the positioning plate and the ceramic holder according to the present invention;

fig. 7 is a schematic structural view of the fixing base of the present invention;

fig. 8 is a schematic structural view of the clamping assembly of the present invention;

fig. 9 is a schematic structural view of the clamping assembly of the present invention at another angle;

fig. 10 is a right side view of the gripping assembly of the present invention;

description of reference numerals:

1. a ceramic base; 11. positioning holes; 12. riveting; 13. a lug plate;

2. a support assembly; 201. a base plate; 202. a rotating electric machine; 203. a turntable; 204. a fixed seat; 205. positioning pins; 206. a first support plate; 207. a guide post; 208. positioning a plate; 209. positioning a groove; 210. a guide plate; 211. a lug plate placing groove;

3. a delivery assembly; 301. conveying the supporting plate; 302. a conveying plate; 303. a conveying trough; 304. a cover plate; 305. a carrier plate; 306. a material loading groove; 307. jacking a cylinder; 308. a fixing plate; 309. a detector;

4. a gripping assembly; 401. clamping a support plate; 402. a side plate; 403. a first slide rail; 404. a first slider; 405. moving the plate; 406. a cylinder fixing plate; 407. a moving cylinder; 408. a hydraulic shock absorber; 409. a second slide rail; 410. a second slider; 411. a lifting plate; 412. a lifting cylinder; 413. a suction cup; 414. a second support plate; 415. a push-pull cylinder; 416. a push-pull plate.

Detailed Description

The invention will be further described with reference to examples of embodiments shown in the drawings.

As shown in fig. 1, the structure of the ceramic socket 1 is schematically shown, and it is used as the base of the lamp socket, and the ceramic material can play a role of insulation with the outside, so as to prevent the occurrence of electric shock accidents when the lamp is installed manually. Two positioning holes 11 are formed in the ceramic base 1, and rivets 12 are mounted in the positioning holes 11 and used for fixing elastic sheets and lugs 13. Still seted up two shell fragment grooves on the ceramic base 1, shell fragment one end is fixed on rivet 12, and the other end inserts the shell fragment inslot, then fixes a lug 13 on every rivet 12, and it can to rivet 12 pressure at last, and the shell fragment one side that inserts shell fragment groove 12 links to each other with the electric light, and the power cord links to each other with lug 13, realizes the transition of electric current through rivet 12 and shell fragment. As shown in fig. 2, the structure of the present invention is schematically shown, and it is used for automatically installing the lug 13 on the rivet 12 of the ceramic base 1, and it includes a supporting component 2, a conveying component 3 and a clamping component 4.

The supporting assembly 2 is used for placing the ceramic holder 1 and comprises a bottom plate 201, a rotating motor 202, a rotary table 203, a fixed seat 204, a positioning pin 205, a first supporting plate 206, a guide post 207, a positioning plate 208, a positioning groove 209, a guide plate 210 and a lug placing groove 211. The bottom plate 201 is fixed on the processing machine table in a screw fastening mode, the shell of the rotating motor 202 is fixed on the bottom plate 201, and the turntable 203 is fixed on the motor shaft of the rotating motor 202 and driven by the rotating motor 202 to rotate. The fixing base 204 is circumferentially fixed on the rotary table 203, and two positioning pins 205 are fixed on the fixing base 204, as shown in fig. 7, for placing the ceramic base 1 (the ceramic base 1 is placed manually, an operator inserts two rivets 12 into the positioning pins 205 in sequence, then the rotary table 203 drives the fixing base 204 with the rivets 12 to rotate to the next station, the operator at the station aligns the positioning holes 11 of the ceramic base 1 with the rivets 12, and then places the ceramic base 1 on the fixing base 204).

The first supporting plate 206 is circumferentially fixed on the rotating disc 203 and corresponds to the fixing seat 204. Two guide posts 207 penetrate through the first support plate 206, and the guide plate 210 is fixed on the guide posts 207 and used for driving the guide posts 207 to move (when the lug 13 is subsequently installed, the clamping assembly 4 pulls the guide plate 210 outwards, and the two guide posts 207 can ensure the smooth movement of the guide plate 210 and prevent the guide plate 210 from overturning). The locating plate 208 is fixed in the one side that the guide pillar 207 is close to the fixing base 204, the locating slot 209 is seted up in one side that the locating plate 208 is close to the fixing base 204 (when follow-up installation lug 13, press from both sides and get subassembly 4 and can outwards draw deflector 210, and then drive guide pillar 207 and locating plate 208 and outwards remove in step, ceramic base 1 card this moment is in locating slot 209, ensure when the dress lug 13, the removal can not take place for ceramic base 1, because the rivet 12 of cover on locating pin 205 only is used for guaranteeing the accuracy of ceramic base 1 position, belong to the initial positioning). The tab holding grooves 211 are formed on the top of the positioning plate 208 for holding the tabs 13 (as shown in fig. 6, there are two rivets 12 on the ceramic base 1, so two tabs 13 need to be mounted, so two sets of tab holding grooves 211 need to be formed on the positioning plate 208, when one end of the tab 13 is sleeved on the rivet 12, the other end is placed on the tab holding groove 211).

As shown in fig. 3, a schematic view of the structure of the feeding unit 3 is shown, which is connected to a vibration plate for feeding the terminal 13. The device comprises a conveying support plate 301, a conveying plate 302, a conveying groove 303, a cover plate 304, a carrier plate 305, a material loading groove 306, a jacking cylinder 307, a fixing plate 308 and a detector 309. A transport support plate 301 is fixed to the base plate 201, and the transport support plate 301 is used to support a transport plate 302 that transports the tab 13. The conveying groove 303 is opened in the conveying plate 302, the vibrating plate conveys the tab 13 to the conveying groove 303, and the tab 13 is conveyed in the conveying groove 303. The cover plate 304 is fixed on the conveying plate 302, the cover plate 304 can prevent external impurities from falling on the lugs 13 to influence subsequent installation, and the height of the conveying groove 303 is larger than the thickness of the lugs 13 to prevent the lugs 13 from interfering with the cover plate 304 in the conveying process. In this embodiment, the conveying plate 302 is provided with two sets of conveying grooves 303, and two lugs 13 are to be mounted on the ceramic base 1, so that the conveying efficiency can be improved by the two sets of conveying grooves 303, and the mounting efficiency is further improved.

The jacking cylinder 307 is fixed on the bottom plate 201 through an aluminum profile and located on one side of the conveying plate 302, and the carrier plate 305 is fixed on a guide rod of the jacking cylinder 307 and driven by the jacking cylinder 307 to lift up and down. The carrier plate 305 is provided with two sets of carrier grooves 306 for temporarily receiving the tabs 13 conveyed by the conveying grooves 303. The fixed plate 308 has two parts, which are fixed at the end of the conveying plate 302, the detector 309 is fixed on the fixed plate 308 and faces the conveying trough 303, and is used for detecting whether the lug 13 is in the conveying trough 303 in real time, when the lug 13 in the conveying trough 303 is detected, the information is sent to the background server, the background server controls the jacking cylinder 307 to move, the jacking cylinder 307 drives the carrier plate 305 to rise to the position flush with the conveying plate 302, and the lug 13 in the conveying trough 303 falls on the carrier trough 306.

As shown in fig. 8-10, the clamping assembly 4 is a schematic structural diagram, and is used for clamping the terminal 13 conveyed by the conveying assembly 3 onto the ceramic base 1, and includes a clamping support plate 401, a side plate 402, a first slide rail 403, a first slide block 404, a moving plate 405, an air cylinder fixing plate 406, a moving air cylinder 407, an oil buffer 408, a second slide rail 409, a second slide block 410, a lifting plate 411, a lifting air cylinder 412, a suction cup 413, a second support plate 414, a push-pull air cylinder 415, and a push-pull plate 416. The clamping support plate 401 is fixed on the processing machine and located on one side of the conveying support plate 301. The side plate 402 is fixed on top of the gripping support plate 401 and is located above the conveying assembly 3. The first slide rail 403 is fixed on the side plate 402 by screw fastening, and the first slider 404 is slidably mounted on the first slide rail 403. The moving plate 405 is fixed to the first slider 404, and the cylinder fixing plate 406 has two pieces fixed to both ends of the side plate 402. The cylinder body of the moving cylinder 407 is fixed on the cylinder fixing plate 406, the guide rod of the moving cylinder 407 is connected to the moving plate 405, and is used for driving the moving plate 405 to move, at the same time, the first slider 404 moves synchronously along the first slide rail 403, and the first slider 404 and the first slide rail 403 play a role in assisting in supporting the moving plate 405. The two hydraulic buffers 408 are fixed on the inner side of the cylinder fixing plate 406, and when the moving plate 405 reciprocates, the hydraulic buffers 408 touch the hydraulic buffers 408, so that the hydraulic buffers 408 can convert kinetic energy generated by a moving object into heat energy and release the heat energy into the atmosphere, the object is effectively stopped in balance during the action, the vibration reduction and noise reduction effects are realized, and the hydraulic buffers 408 are commercially available in the AC0806 model.

The second slide rail 409 is fixed on the moving plate 405, and the second slider 410 is slidably mounted on the second slide rail 409. The lifting plate 411 is fixed on the second slider 410, and the lifting cylinder 412 is fixed on the moving plate 405 and connected with the lifting plate 411 for driving the lifting plate 411 to lift. The suction cup 413 is fixed to the bottom of the lifting plate 411 and faces the loading chute 306, and is used for sucking the wire connecting piece 13 in the loading chute 306. The second support plate 414 is fixed on the gripping support plate 401, the push-pull cylinder 415 is fixed on the second support plate 414, and the push-pull plate 416 is fixed on the guide rod of the push-pull cylinder 415 and used in cooperation with the guide plate 210. Push-pull plate 416 is "L" shaped (push-pull cylinder 415 is initially in the ejected position, so push-pull plate 416 is near the center of turntable 203). When the detector 309 detects the lug 13 at the end of the conveying groove 303, the jacking cylinder 307 drives the carrier plate 305 to rise to be flush with the conveying plate 302, the lug 13 falls into the carrier groove 306, the push-pull cylinder 415 resets to drive the push-pull plate 416 to move outwards, and the push-pull plate 416 touches the guide plate 210 in the process of moving outwards, so that the positioning plate 208 is pulled out, and the positioning groove 209 is inserted into the ceramic base 1 to position the ceramic base 1; then the suction cup 413 descends to suck the lug 13 in the material loading groove 306 and place the lug on the ceramic base 1 (one end of the lug 13 is sleeved on the rivet 12, the other end of the lug 13 is placed in the lug placing groove 211), then the rotating motor 202 drives the ceramic base 1 with the lug 13 to rotate to the next station for riveting, the extended positioning plate 208 is pushed back in the final blanking process, and in the embodiment, the extended positioning plate 208 is only pulled out.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims (8)

1. The utility model provides a lug automatic installation structure for lamp stand which characterized in that, it includes:

the supporting assembly (2) comprises a bottom plate (201), a rotary disc (203) rotatably mounted on the top of the bottom plate (201), and a fixed seat (204) circumferentially fixed on the top of the rotary disc (203);

the conveying assembly (3) is fixed on the bottom plate (201) and comprises a conveying plate (302), a conveying groove (303) formed in the top of the conveying plate (302), a carrier plate (305) arranged on one side of the conveying groove (303) in a lifting mode, and a carrier groove (306) formed in the carrier plate (305) and used in cooperation with the conveying groove (303);

the clamping assembly (4) is fixed on the bottom plate (201) and comprises a side plate (402), a movable plate (405) movably arranged on one side of the side plate (402), a lifting plate (411) arranged on one side of the movable plate (405) in a lifting mode, and a sucking disc (413) fixed at the bottom of the lifting plate (411) and facing the material loading groove (306).

2. The automatic fitting structure of a terminal lug for a lamp socket according to claim 1, wherein: the supporting component (2) further comprises a first supporting plate (206) which is circumferentially fixed on the bottom plate (201) and corresponds to the fixed seat (204), a guide post (207) penetrating through the first supporting plate (206), a positioning plate (208) fixed on one side, close to the fixed seat (204), of the guide post (207), a positioning groove (209) formed in one side of the positioning plate (208), a lug placing groove (211) formed in the top of the positioning plate (208), and a guide plate (210) fixed on the guide post (207).

3. The automatic fitting structure of a terminal lug for a lamp socket according to claim 1, wherein: the conveying assembly (3) further comprises a cover plate (304) fixed on the top of the conveying plate (302), fixing plates (308) fixed on two sides of the conveying plate (302), a detector (309) fixed on the fixing plates (308) and facing the conveying groove (303), and a jacking cylinder (307) used for driving the carrier plate (305) to lift.

4. The automatic fitting structure of a terminal lug for a lamp socket according to claim 1, wherein: the clamping assembly (4) further comprises a first sliding rail (403) fixed on the side plate (402), a first sliding block (404) slidably mounted on the first sliding rail (403), cylinder fixing plates (406) fixed on two sides of the side plate (402), a moving cylinder (407) fixed on the cylinder fixing plate (406) and used for driving the moving plate (405) to move, and an oil pressure buffer (408) arranged on the inner side of the cylinder fixing plate (406), wherein the moving plate (405) is fixed on the first sliding block (404).

5. The automatic fitting structure of a terminal lug for a lamp socket according to claim 4, wherein: the clamping assembly (4) further comprises a second sliding rail (409) fixed on the moving plate (405), a second sliding block (410) slidably mounted on the second sliding rail (409), and a lifting cylinder (412) fixed on the moving plate (405) and used for driving the lifting plate (411) to lift, wherein the lifting plate (411) is fixed on the second sliding block (410).

6. The automatic fitting structure of a terminal lug for a lamp socket according to claim 2, wherein: the clamping assembly (4) further comprises a second supporting plate (414) fixed on the bottom plate of the side plate (402) and a push-pull plate (416) movably arranged on the second supporting plate (414) and used in cooperation with the guide plate (210).

7. The automatic fitting structure of a terminal lug for a lamp socket according to claim 1, wherein: the height of the conveying groove (303) is larger than the thickness of the wire connecting piece.

8. The automatic fitting structure of a terminal lug for a lamp socket according to claim 2, wherein: the conveying plate (302) is provided with two groups of conveying grooves (303), the carrier plate (305) is provided with two groups of carrier grooves (306), and the positioning plate (208) is provided with two groups of lug plate placing grooves (211).

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