CN219923487U - Gluing assembly for manufacturing buzzer - Google Patents

Abstract

The utility model relates to a gluing component for manufacturing a buzzer in the technical field of buzzer manufacturing, which comprises a rotating mechanism and a back suction type dispensing valve, wherein the back suction type dispensing valve is arranged above the rotating mechanism through a movable guide rail; the back suction type dispensing valve can be driven by the first air cylinder to move left and right along the movable guide rail so as to adjust the diameter of the circumferential path, the back suction type dispensing valve is not limited to the coating mode of the circumferential path, and the coating modes of a cross and a spiral line can be carried out under the cooperation of the rotating mechanism so as to be suitable for different products; the positioning shaft and the positioning bolt which are arranged in the fixed shaft sleeve in a lifting manner can fix and position the shell in the rotary jig, so that offset of glue coating is effectively avoided, and production quality is ensured.

Description

Gluing assembly for manufacturing buzzer

Technical Field

The utility model relates to the technical field of buzzer manufacturing, in particular to a rubberizing component for buzzer manufacturing.

Background

In the production process of the buzzer, the buzzer and the protective casing are required to be bonded together, and the gluing equipment for manufacturing the buzzer in the prior art can be specifically referred to the Chinese patent with publication number of CN112045414A, and an automatic automobile buzzer assembling equipment is disclosed, wherein the equipment comprises a glue dispensing mechanism, but the glue dispensing mechanism can only perform fixed-point glue coating, does not have the function of adjusting the glue coating path, and is unfavorable for stable connection of the buzzer and the protective casing.

In chinese patent publication No. CN217664302U, a sizing device is disclosed, which, through an eccentric member and a rotating mechanism, enables the sizing mechanism to apply glue along a circumferential path, so that the glue is distributed more uniformly, and the stability of adhesion is facilitated. However, the structure is also insufficient, and the Z-shaped connecting frame is connected with the eccentric plate through bolts, so that the bolts are required to be manually detached for adjustment when the diameter of the circumferential path is required to be adjusted, and the structure is inconvenient.

Disclosure of Invention

In order to overcome the defects of the prior art, the utility model provides a sizing component for manufacturing a buzzer, which effectively solves the problem that the current coating path of glue is inconvenient to adjust.

The object of the utility model is achieved by:

the utility model provides a rubberizing subassembly that buzzer was used is made, including rotary mechanism and back suction type dispensing valve, back suction type dispensing valve passes through the mobile unit and installs in rotary mechanism's top, rotary mechanism is including the fixing base body, rotating jig, driving motor, lift cylinder, fixed axle sleeve and locating shaft, fixed axle sleeve rotatably installs on unable adjustment base, rotating jig rotatably installs in fixed axle sleeve's upper end, be provided with the location cavity that is used for holding buzzer in the rotating jig, the locating shaft liftable install in fixed axle sleeve, the locating shaft can pass rotating jig, driving motor is connected with fixed axle sleeve, be provided with the spacing axle that passes the locating shaft in the fixed axle sleeve, make fixed axle sleeve and locating shaft can be driven by driving motor and carry out synchronous revolution, lift cylinder is connected with the locating shaft, the location bolt is installed to the upper end of locating shaft.

Further, the back suction type dispensing valve is obliquely arranged above the rotating mechanism.

Further, the upper end of the positioning bolt is provided with a guide cone part.

Further, the pulley group includes two belt pulleys, and two belt pulleys set up respectively on driving motor and fixed axle sleeve, are connected through driving belt between two belt pulleys, and one side of lift cylinder is provided with and is used for carrying out complex take-up pulley with driving belt.

Further, the moving assembly comprises a moving guide rail and a first air cylinder, the back suction type dispensing valve is arranged on the moving guide rail, the first air cylinder is used for pushing the back suction type dispensing valve to move, the back suction type dispensing valve is arranged on the moving guide rail through the first guide rail, and a second air cylinder for pushing the back suction type dispensing valve is arranged on the moving guide rail.

Further, the both sides of location cavity are connected with material loading track and ejection of compact track respectively through the notch, the one end that the location cavity was kept away from to material loading track is connected with the material loading vibration dish, one side of rotatory tool is provided with feeding mechanism, feeding mechanism includes push support, push frame and load-bearing frame, load-bearing frame passes through the third cylinder and installs in one side of rotatory tool liftable, push frame passes through the second guide rail and installs in load-bearing frame's upper end, the fourth cylinder that is used for promoting push frame is installed to load-bearing frame's lower extreme, push support passes through the third guide rail and installs on push frame, be provided with the first support arm that is used for the drive on the push support, push support is provided with the push part that can pass notch and ejection of compact track including two to rotatory tool extension, push frame's one side is installed and is used for passing the orbital second support arm of material loading.

Further, a blocking mechanism is arranged between the rotary jig and the feeding rail and comprises a blocking block which is arranged between the rotary jig and the feeding rail in a lifting manner through a fifth cylinder.

Further, the unloading mechanism is arranged above the rotating mechanism, the unloading mechanism comprises a pneumatic clamping jaw, a fourth guide rail and a sixth air cylinder, the fourth guide rail is arranged above the rotating mechanism through a supporting frame, the sixth air cylinder is arranged on the fourth guide rail through a movable guide block, a seventh air cylinder used for being connected with the movable guide block is arranged on the fourth guide rail, and the pneumatic clamping jaw is connected with the sixth air cylinder through a connecting piece.

Further, the tail end of the discharging track is provided with a grabbing jig, and a grabbing cavity matched with the pneumatic clamping jaw is arranged on the grabbing jig.

Further, one side of the pneumatic clamping jaw is provided with a detection module.

The utility model has the beneficial effects that: firstly, when in use, the rotary jig and the buzzer shell on the rotary jig are driven by the driving motor to rotate, and the shell is coated with glue in a circumferential path by the back suction type glue dispensing valve, so that the glue is distributed more uniformly; secondly, the back suction type dispensing valve can be driven by the moving component to move left and right linearly so as to adjust the diameter of the circumferential path, the back suction type dispensing valve is not limited to the coating mode of the circumferential path, and the cross and spiral coating modes can be carried out under the cooperation of the rotating mechanism so as to be suitable for different products; thirdly, the positioning shaft and the positioning bolt which are arranged in the fixed shaft sleeve in a lifting manner can fix and position the shell in the rotary jig, so that offset of glue coating is effectively avoided, and production quality is ensured.

Drawings

FIG. 1 is a schematic view of a first structure of a sizing assembly for buzzer manufacture according to the present utility model;

FIG. 2 is an enlarged schematic view of FIG. 1A;

FIG. 3 is a schematic diagram of a second structure of the sizing assembly for manufacturing a buzzer according to the present utility model;

FIG. 4 is a schematic view of a third structure of a sizing assembly for manufacturing a buzzer according to the present utility model;

FIG. 5 is a first schematic view of a rotary mechanism in a sizing assembly for buzzer manufacture according to the present utility model;

FIG. 6 is a second schematic view of the rotary mechanism in the sizing assembly for buzzer manufacture according to the present utility model;

FIG. 7 is a schematic cross-sectional view of the rotary mechanism in the sizing assembly for buzzer manufacture in accordance with the present utility model;

the reference numerals in the drawings are respectively: 1-back suction type dispensing valve, 5-feeding track, 6-discharging track, 7-feeding vibration disc, 8-first cylinder, 9-first guide rail, 10-movable guide rail, 11-second cylinder, 12-block and 13-fifth cylinder;

2-rotation mechanism, 201-fixed seat body, 202-rotation jig, 203-driving motor, 204-lifting cylinder, 205-fixed shaft sleeve, 206-positioning shaft, 207-tensioning wheel, 208-positioning cavity, 209-limiting shaft, 210-travel guide slot, 211-positioning bolt, 212-belt pulley and 213-driving belt;

301-pushing bracket, 302-pushing frame, 303-bearing frame, 304-third cylinder, 305-second guide rail, 306-fourth cylinder, 307-third guide rail, 308-first motor, 309-first support arm, 310-pushing part, 311-second support arm;

401-pneumatic clamping jaw, 402-fourth guide rail, 403-sixth cylinder, 404-seventh cylinder, 405-gripping jig, 406-gripping cavity, 407-detection module, 408-support frame.

Detailed Description

The utility model is described in further detail below with reference to the drawings and the detailed description.

Referring to fig. 1-7, the sizing component for manufacturing a buzzer specifically implemented by the sizing component comprises a rotating mechanism 2 and a back suction type dispensing valve 1, wherein the back suction type dispensing valve 1 is obliquely installed above the rotating mechanism 2 through a moving guide rail 10, a first cylinder 8 for connecting with the back suction type dispensing valve 1 is arranged on the moving guide rail 10, the rotating mechanism 2 comprises a fixed seat body 201, a rotating jig 202, a driving motor 203, a lifting cylinder 204, a fixed shaft sleeve 205 and a positioning shaft 206, the fixed shaft sleeve 205 is rotatably installed on the fixed seat through a first bearing, the rotating jig 202 is rotatably installed at the upper end of the fixed shaft sleeve 205 through a second bearing, a positioning cavity 208 for accommodating the buzzer is arranged in the rotating jig 202, the positioning shaft 206 is liftably installed in the fixed shaft sleeve 205, the positioning shaft 206 can penetrate through the rotating jig 202, the driving motor 203 is connected with the fixed shaft sleeve 205 through a belt pulley group, a limiting shaft 209 sequentially penetrates through the fixed shaft sleeve 205 and the positioning shaft 206, the positioning shaft 206 is internally provided with a guide groove for matching with the limiting shaft 210, and the positioning shaft 206 is connected with a positioning shaft 211 through a stroke, and the positioning shaft 211 is installed on the positioning shaft 206. The driving motor 203 drives the fixed shaft sleeve 205 to rotate through the belt pulley group, and under the limit of the limiting shaft 209, the positioning shaft 206 can be driven by the fixed shaft sleeve 205 to synchronously rotate, and meanwhile, the positioning shaft 206 can only lift up and down within the range of the row Cheng Daocao 210 due to the cooperation of the travel guide groove 210 and the limiting shaft 209.

The upper end of the positioning bolt 211 is provided with a guiding cone part, and the guiding cone part is obliquely arranged, so that the positioning bolt can be conveniently inserted into a hole on the buzzer shell.

The pulley group includes two belt pulleys 212, and two belt pulleys 212 set up respectively on driving motor 203 and fixed axle sleeve 205, connect through driving belt 213 between two belt pulleys 212, and one side of lift cylinder 204 is provided with and is used for carrying out complex take-up pulley 207 with driving belt 213, and take-up pulley 207 passes through bolt detachably to be installed in one side of lift cylinder 204, and one side of lift cylinder 204 is provided with and is used for carrying out complex guide slot with the bolt to the position distance of adjustment take-up pulley 207, with the pressure of control driving belt 213, avoid appearing the belt and skid.

The back suction type dispensing valve 1 is arranged on a movable guide rail 10 through a first guide rail 9, a second air cylinder 11 for pushing the back suction type dispensing valve 1 is arranged on the movable guide rail 10, and the second air cylinder 11 is used for driving the back suction type dispensing valve 1 to move up and down along the movable guide rail 10 so as to be convenient for matching with the automatic operation of a feeding mechanism.

The two sides of the positioning cavity 208 are respectively connected with a feeding track 5 and a discharging track 6 through a notch, one end of the feeding track 5, far away from the positioning cavity 208, is connected with a feeding vibration disc 7, one side of the rotating jig 202 is provided with a feeding mechanism, the feeding mechanism comprises a pushing support 301, a pushing frame 302 and a bearing frame 303, the bearing frame 303 is installed on one side of the rotating jig 202 in a lifting manner through a third air cylinder 304, the pushing frame 302 is installed on the upper end of the bearing frame 303 through a second guide rail 305, a fourth air cylinder 306 for pushing the pushing frame 302 is installed at the lower end of the bearing frame 303, the pushing support 301 is installed on the pushing frame 302 through a third guide rail 307, a first motor 308 for driving is arranged on the pushing support 301, a transmission rack (not shown) for being matched with the first motor 308 is arranged on the inner side of the third guide rail 307, the pushing support 301 comprises two first support arms 309 extending towards the rotating jig 202, pushing portions 310 capable of penetrating through the notch and the discharging track 6 are arranged at the lower ends of the first support arms 309 in a protruding manner, and one side of the pushing frame 302 is provided with a second support arm 311 for penetrating through the upper portion 5. When the feeding vibration disc 7 is used, the buzzer shell is sent to the tail end of the feeding track 5, then the pushing frame 302 is driven by the fourth air cylinder 306 to move back and forth along the second guide rail 305, in the moving process, two pushing parts 310 and a second support arm 311 respectively penetrate through the notch, the discharging track 6 and the feeding track 5, one pushing part 310 sends the shell in the discharging track 6 to the grabbing jig 405, the other pushing part 310 is used for sending the shell in the rotating jig 202 (the shell has completed the glue coating process) to the discharging track 6, and the second support arm 311 is used for sending the shell to be processed at the tail end of the feeding track 5 to the rotating jig 202, so that the process of feeding is completed.

The third air cylinder 304 is used for driving the bearing frame 303 to move up and down, and the first motor 308 is used for driving the pushing bracket 301 to move left and right, so that the discharging adjustment of part of special products is facilitated.

A blocking mechanism is arranged between the rotary jig 202 and the feeding rail 5, the blocking mechanism comprises a blocking block 12, the blocking block 12 is installed between the rotary jig 202 and the feeding rail 5 in a lifting manner through a fifth air cylinder 13, when the rotary mechanism 2 and the back suction type dispensing valve 1 carry out glue coating operation, the fifth air cylinder 13 drives the blocking block 12 upwards, a shell in the feeding rail 5 is prevented from entering the operation range of the rotary mechanism 2, and when a feeding procedure is needed, the blocking block 12 descends to the upper end face to be flush with the bottom surface of the feeding rail 5, so that the shell can smoothly enter the rotary jig 202.

The upper side of rotary mechanism 2 is provided with feed mechanism, and feed mechanism includes pneumatic clamping jaw 401, fourth guide rail 402 and sixth cylinder 403, and fourth guide rail 402 passes through support frame 408 to be installed in rotary mechanism 2's top, and sixth cylinder 403 passes through the removal guide block to be installed on fourth guide rail 402, is provided with the seventh cylinder 404 that is used for being connected with the removal guide block on the fourth guide rail 402, and pneumatic clamping jaw 401 passes through the connecting piece and is connected with sixth cylinder 403. When the device is used, the pneumatic clamping jaw 401 is driven to move up and down and back and forth through the sixth air cylinder 403 and the seventh air cylinder 404, the tail end of the discharging track 6 is provided with the grabbing jig 405, the grabbing jig 405 is provided with the grabbing cavity 406 for being matched with the pneumatic clamping jaw 401, one side of the pneumatic clamping jaw 401 is provided with the detection module 407, and the detection module 407 is an infrared photoelectric sensor and is used for detecting whether glue is coated on the shell or not and detecting the thickness of the glue coating.

When in use, the rotary jig 202 and the buzzer shell on the rotary jig are driven to rotate by the driving motor 203, and the glue on the circumferential path is coated on the shell by the back suction type glue dispensing valve 1, so that the glue is distributed more uniformly; the back suction type dispensing valve 1 can be driven by the first air cylinder 8 to move left and right along the moving guide rail 10 so as to adjust the diameter of the circumferential path, and the back suction type dispensing valve is not limited to the coating mode of the circumferential path, and the coating modes of a cross and a spiral line can be carried out under the cooperation of the rotating mechanism 2 so as to be suitable for different products; the positioning shaft 206 and the positioning pin 211 which are arranged in the fixed shaft sleeve 205 in a lifting manner can fix and position the shell in the rotary jig 202, so that offset of glue coating is effectively avoided, production quality is ensured, and the positioning shaft 206 and the positioning pin 211 are driven by the lifting cylinder 204 to move up and down.

The present utility model is not limited to the preferred embodiments, but is intended to be limited to the following description, and any modifications, equivalent changes and variations in light of the above-described embodiments will be apparent to those skilled in the art without departing from the scope of the present utility model.

Claims (10)

1. Sizing component for buzzer manufacture, including rotary mechanism (2) and back suction type dispensing valve (1), its characterized in that: the back suction type dispensing valve (1) is arranged above a rotating mechanism (2) through a moving assembly, the rotating mechanism (2) comprises a fixed seat body (201), a rotating jig (202), a driving motor (203), a lifting cylinder (204), a fixed shaft sleeve (205) and a positioning shaft (206), the fixed shaft sleeve (205) is rotatably arranged on a fixed base, the rotating jig (202) is rotatably arranged at the upper end of the fixed shaft sleeve (205), a positioning cavity (208) for accommodating a buzzer is arranged in the rotating jig (202), the positioning shaft (206) is arranged in the fixed shaft sleeve (205) in a lifting manner, the positioning shaft (206) can penetrate through the rotating jig (202), the driving motor (203) is connected with the fixed shaft sleeve (205), a limiting shaft (209) penetrating through the positioning shaft (206) is arranged in the fixed shaft sleeve (205), the fixed shaft sleeve (205) and the positioning shaft (206) can be driven by the driving motor (203) to synchronously rotate, the lifting cylinder (204) is connected with the positioning shaft (206), and the upper end of the positioning shaft (206) is provided with a positioning bolt (211).

2. A sizing assembly for buzzer manufacture as in claim 1, wherein: the back suction type dispensing valve (1) is obliquely arranged above the rotating mechanism (2).

3. A sizing assembly for buzzer manufacture as in claim 1, wherein: the upper end of the positioning bolt (211) is provided with a guide cone part.

4. A sizing assembly for buzzer manufacture as in claim 1, wherein: the driving motor (203) is connected with the fixed shaft sleeve (205) through a belt pulley group, the belt pulley group comprises two belt pulleys (212), the two belt pulleys (212) are respectively arranged on the driving motor (203) and the fixed shaft sleeve (205), the two belt pulleys (212) are connected through a transmission belt (213), and one side of the lifting cylinder (204) is provided with a tensioning wheel (207) which is matched with the transmission belt (213).

5. A sizing assembly for buzzer manufacture as in claim 1, wherein: the movable assembly comprises a movable guide rail (10) and a first air cylinder (8), wherein the back suction type dispensing valve (1) is arranged on the movable guide rail (10), the first air cylinder (8) is used for pushing the back suction type dispensing valve (1) to move, the back suction type dispensing valve (1) is arranged on the movable guide rail (10) through the first guide rail (9), and a second air cylinder (11) for pushing the back suction type dispensing valve (1) is arranged on the movable guide rail (10).

6. A sizing assembly for buzzer manufacture in accordance with any one of claims 1 to 5, wherein: the utility model provides a material loading vibration dish (7) is kept away from to the one end that location cavity (208) was connected with material loading track (5) and ejection of compact track (6) respectively through the notch to both sides of location cavity (208), material loading track (5) is connected with material loading vibration dish (7) away from location cavity (208), one side of rotatory tool (202) is provided with feeding mechanism, feeding mechanism includes push frame (301), push frame (302) and load frame (303), load frame (303) are installed in one side of rotatory tool (202) through third cylinder (304) liftable, push frame (302) are installed in the upper end of load frame (303) through second guide rail (305), fourth cylinder (306) that are used for promoting push frame (302) are installed to the lower extreme of load frame (303), push frame (301) are installed on push frame (302) through third guide rail (307), be provided with first motor (308) that are used for the drive on push frame (301), push frame (301) are including two first support arms (309) that extend to rotatory tool (202), push frame (309) lower extreme setting has support arm (310) to pass on push frame (310) and are used for installing material loading (5).

7. The sizing assembly for buzzer manufacturing of claim 6, wherein: a blocking mechanism is arranged between the rotary jig (202) and the feeding rail (5), the blocking mechanism comprises a blocking block (12), and the blocking block (12) is installed between the rotary jig (202) and the feeding rail (5) in a lifting manner through a fifth air cylinder (13).

8. The sizing assembly for buzzer manufacturing of claim 6, wherein: the automatic feeding device is characterized in that a blanking mechanism is arranged above the rotating mechanism (2), the blanking mechanism comprises a pneumatic clamping jaw (401), a fourth guide rail (402) and a sixth air cylinder (403), the fourth guide rail (402) is arranged above the rotating mechanism (2) through a supporting frame (408), the sixth air cylinder (403) is arranged on the fourth guide rail (402) through a movable guide block, a seventh air cylinder (404) used for being connected with the movable guide block is arranged on the fourth guide rail (402), and the pneumatic clamping jaw (401) is connected with the sixth air cylinder (403) through a connecting piece.

9. The sizing assembly for buzzer manufacture of claim 8, wherein: the tail end of the discharging track (6) is provided with a grabbing jig (405), and a grabbing cavity (406) matched with the pneumatic clamping jaw (401) is arranged on the grabbing jig (405).

10. A sizing assembly for buzzer manufacture according to claim 8 or 9, wherein: one side of the pneumatic clamping jaw (401) is provided with a detection module (407).