CN209778668U - Automatic material receiving buffer machine for vehicle-mounted laminated glass - Google Patents

Abstract

The utility model relates to a collection device technical field, concretely relates to on-vehicle doubling glass's automatic material buffering machine of receiving. The method comprises the following steps: frame, pan feeding assembly line, glass are transported subassembly, chassis and are transported subassembly, gridion input assembly line, gridion output assembly line, gridion lifting unit and gridion and transport the subassembly, the frame is "protruding" style of calligraphy, the pan feeding assembly line sets up in the frame protruding portion, gridion input assembly line with gridion output assembly line sets up in the frame main part, gridion input assembly line with gridion output assembly line parallel arrangement is two sets of gridion lifting unit is respectively the cross frame in the frame of gridion output assembly line and gridion input assembly line both sides. The transfer trays are stacked neatly, and the stacked transfer trays are transported out of the automatic material receiving buffer machine of the vehicle-mounted laminated glass, so that the laminated glass is favorably transferred into the autoclave for autoclaving. Will receive material and save the collection in a device, practiced thrift manufacturing cost, improved transportation efficiency.

Description

Automatic material receiving buffer machine for vehicle-mounted laminated glass

Technical Field

The utility model relates to a collection device technical field, concretely relates to on-vehicle doubling glass's automatic material buffering machine of receiving.

Background

Along with social economy's rapid development, no matter people's life or work each industry have all realized modernization and automation gradually, receive the material field at the automatic receipts of on-vehicle doubling glass, operate through adopting manually in the traditional processing production process, perhaps some equipment operate, manual operation, whole work load is very big, and there is certain uncertain factor, easily lead to the increase of defective products, current equipment is because the irrational nature of its design, to receiving to accomplish after the material is accomplished on next step with the glass after the buffer memory move to evaporate the pressure cauldron in evaporate the pressure and press, if can't accomplish automatic the stacking will influence greatly and evaporate pressure efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the not enough and defect of prior art, provide an automatic material buffer of receiving of on-vehicle doubling glass machine of automatic collection, stack, buffer memory.

The purpose of the utility model is realized through the following technical scheme:

The utility model provides an on-vehicle doubling glass's automatic receipts material buffer stop, includes: the subassembly is transported to frame, pan feeding assembly line, glass, chassis, and subassembly, gridion input assembly line, gridion output assembly line, gridion lifting unit and gridion are transported to the subassembly, the frame is "protruding" style of calligraphy, the pan feeding assembly line sets up in the frame protruding portion, gridion input assembly line with gridion output assembly line sets up in the frame main part, gridion input assembly line with output gridion waterline parallel arrangement, gridion lifting unit is two sets of, and is two sets of gridion lifting unit is respectively the cross frame in gridion output assembly line and the frame of input gridion waterline both sides, the gridion is transported the subassembly and is extended to directly over another gridion lifting unit from directly over one gridion lifting unit, glass transports the assembly line and extends to gri.

Specifically, the grill input assembly line and the grill output assembly line are symmetrically arranged on the frame main body.

Specifically, the grill lift assembly includes: the lifting rod is vertically arranged on the rack, the supporting rod is arranged on the lifting rod and used for lifting the grill, and the first driving assembly is used for driving the supporting rod to lift.

Specifically, the grill transfer assembly includes: the gridion is transported slide rail, is set up gridion transportation board on the gridion transportation slide rail, drive gridion transportation board along gridion transportation slide rail motion's second drive assembly, set up on gridion transportation board and the second that the level was placed promotes the cylinder and set up on the second promotes the cylinder and the transportation layer board that the level was placed.

Specifically, the chassis transfer assembly includes: the third that sets up in gridion input assembly line side frame promotes the cylinder, sets up fourth promotion cylinder in gridion output assembly line side frame, sets up the chassis between gridion input assembly line and gridion output assembly line and transports the assembly line, the assembly line is transported on the chassis perpendicular to gridion input assembly line and gridion output assembly line and gridion input assembly line setting transports the assembly line upstream on the chassis, is equipped with the mounting panel in gridion output assembly line side frame, is equipped with elevating gear on the mounting panel, the fourth promotes that the cylinder is fixed to be set up on elevating gear, fourth promotion cylinder and chassis parallel arrangement, fourth promotion cylinder tip is equipped with the chassis layer board that holds up the chassis.

Specifically, the glass transfer assembly includes: glass transports slide rail, sets up glass on glass transports slide rail and transports board, drive glass transport board along glass transport slide rail motion's third drive assembly, set up glass lifting unit and set up the glass adsorption equipment in glass lifting unit below on glass transports the board, glass transports the slide rail and extends to gridion from pan feeding assembly line top and transports the subassembly top, slide rail and frame fixed connection are transported to glass.

Specifically, the bottom of the rack is provided with an adjusting support frame and universal wheels.

Compared with the prior art, the utility model following advantage and beneficial effect are included:

(1) The utility model discloses a with pan feeding assembly line, glass transport subassembly, chassis transportation subassembly, gridion input assembly line, gridion output assembly line, gridion lifting unit and gridion transportation subassembly ingenious setting in the frame, can be high-efficient quick place doubling glass in transporting the tray to transport the tray and stack neatly, and pile up and transport out on-vehicle doubling glass's automatic material buffer that receives, be favorable to transporting doubling glass to steaming and pressing in the cauldron on next step and evaporate the pressure. Will receive material and save the collection in a device, practiced thrift manufacturing cost, improved transportation efficiency.

Drawings

Fig. 1 is a side sectional view of the automatic material receiving buffer machine for vehicle-mounted laminated glass.

Fig. 2 is the utility model relates to a top view of the automatic material receiving buffer machine for vehicle-mounted laminated glass.

Detailed Description

The present invention will be described in further detail with reference to the following examples and drawings, but the present invention is not limited thereto.

As shown in fig. 1 to 2, an automatic material receiving buffer machine for vehicle-mounted laminated glass comprises: the glass transfer device comprises a rack 1, a controller, a feeding assembly line 2, a glass transfer assembly 3, a chassis transfer assembly 4, a grill input assembly line 5, a grill output assembly line 6, a grill lifting assembly 7 and a grill transfer assembly 8, wherein the rack 1 is in a convex shape, the rack 1 comprises a protruding part and a main body part, the feeding assembly line 2 is arranged in the protruding part of the rack 1, an external assembly line is butted with the upper part of the feeding assembly line 2, the grill input assembly line 5 and the grill output assembly line 6 are arranged in the main body part of the rack 1, the grill input assembly line 5 and the grill output assembly line 6 are arranged in parallel, an empty grill group and a full glass grill group can enter and exit from one direction, the device of the next procedure can be more compact in structure, and the grill lifting assembly 7 is arranged into two groups, two groups of grill lifting components 7 are respectively and transversely arranged on the racks 1 at two sides of the grill output assembly line 6 and the grill input assembly line 5, the grill lifting components 7 erected on the racks 1 at two sides of the grill input assembly line 5 are used for transporting empty trays into the grill transfer component 8, the grill lifting components 7 erected on the racks 1 at two sides of the grill output assembly line 6 are used for stacking the filled laminated glass neatly and placing the stacked laminated glass on the chassis, the grill transfer component 8 extends from the position right above one grill lifting component 7 to the position right above the other grill lifting component 7, the grill transfer component 8 is used for loading the laminated glass on the empty grill and transferring the grill loaded with the laminated glass into the grill lifting component 7 on the grill output assembly line 6, the glass transfer assembly line extends from the position above the material inlet assembly line 2 to the position above the grill transfer component 8, and the glass transfer component onto the grill in the grill transfer component 8, the controller is fixedly connected with the frame 1. The bottom of the chassis is provided with a groove.

Specifically, the grill input assembly line 5 and the grill output assembly line 6 are symmetrically arranged with respect to the main body of the rack 1.

Specifically, the grill lift assembly 7 includes: the utility model provides a vertical setting is at the lifter 71 on frame 1, set up on the lifter 71 and be used for the bracing piece 72 of lift gridion and the first drive assembly that drive bracing piece 72 goes up and down, first drive assembly can be motor drive lead screw, and the lead screw drives the bracing piece 72 and goes up and down, be equipped with first promotion cylinder 73 on the bracing piece 72, first promotion cylinder 73 tip is equipped with the lift layer board that the level was placed, and the lift layer board is used for holding the gridion and goes up and down. The grill lifting assembly 7 further comprises a counting device, when one grill is superposed on the grill lifting assembly 7, the counting device counts one more, when one grill is removed from the grill lifting assembly 7, the counting device counts one less, and the lifting rod 71 is further provided with an infrared positioning device for positioning the position of the grill group.

Specifically, the grill transfer assembly 8 includes: slide rail 81, the gridion of setting on gridion transfer slide rail 81 is transported the board 82, is driven gridion transfer board 82 along gridion transfer slide rail 81 motion's second drive assembly, set up on gridion transfer board 82 and the level is placed the second push cylinder 83 and set up on second push cylinder 83 and the level is placed the transportation layer board, the second drive assembly can be motor drive gear with gridion transfer board 82 and transport on gridion transfer slide rail 81, slide rail 81 is transported to the gridion extends to directly over another gridion lifting unit 7 from directly over a gridion lifting unit 7, slide rail 81 and frame 1 fixed connection are transported to the gridion, and gridion transfer unit 8 is used for loading glass with the top layer gridion and transports.

Specifically, the chassis transfer assembly 4 includes: the third that sets up on gridion input flow line 5 side frame 1 promotes the cylinder, sets up fourth promotion cylinder on gridion output flow line 6 side frame 1, sets up the chassis between gridion input flow line 5 and gridion output flow line 6 and transports the assembly line, the chassis is transported assembly line perpendicular to gridion input flow line 5 and gridion output flow line 6 and gridion input flow line 5 and is set up and transports the assembly line upstream on the chassis, is equipped with the mounting panel on the 6 side frame 1 of gridion output flow line, is equipped with elevating gear on the mounting panel, the fourth promotes the cylinder and fixes the setting on elevating gear, fourth promotion cylinder and chassis parallel arrangement, fourth promotion cylinder tip is equipped with the chassis layer board that holds up the chassis. The assembly line is transported to the chassis, gridion input assembly line 5 and gridion output assembly line 6 all are in same horizontal plane, the third promotes cylinder and 1 fixed connection in frame, the third promotes cylinder, chassis transport the assembly line and the fourth promotes the cylinder and is in same straight line, the third promotes the cylinder and is used for transporting the chassis from gridion input assembly line 5 to the chassis in transporting the assembly line, the fourth promotes the cylinder through stretching into the chassis bottom with the chassis layer board, holds up the chassis through elevating gear, and rethread fourth promotes the cylinder and puts into gridion output assembly line 6 with the tray.

Specifically, the glass transfer module 3 includes: glass transports slide rail, sets up glass on glass transports slide rail and transports board, drive glass transport board along glass transport slide rail motion's third drive assembly, set up glass lifting unit and set up the glass adsorption equipment in glass lifting unit below on glass transports the board, glass transports the slide rail and extends to the gridion from 2 tops of pan feeding assembly line and transports subassembly 8 tops, slide rail and 1 fixed connection in frame are transported to glass. The third drive assembly can be that the motor drives the gear and transports the board with glass and move on glass transports the slide rail, the glass-frame riser subassembly can be that cylinder or motor drive movable pulley go up and down, and glass adsorption equipment connects vacuum rubber suction cup for the air pump and adsorbs, and the glass-frame riser subassembly bottom still is equipped with the infrared induction device that is used for fixing a position the glued glass position.

Specifically, the bottom of the frame 1 is provided with an adjusting support frame and universal wheels.

The utility model discloses a concrete implementation process as follows: empty grill groups are transferred to a grill inlet flow line 5 from an outer surface flow line, the grill inlet flow line 5 moves the empty grill groups into a grill lifting assembly 7, when an infrared positioning device senses that the empty grill groups move into the grill lifting assembly 7, a controller controls the grill inlet flow line 5 to stop moving, a first driving assembly moves a lifting tray to a position with the same height as the gap between the bottom surface of the first grill and the bottom plate from bottom to top, a first pushing air cylinder 73 pushes a lifting support plate to the gap between the bottom surface of the first grill from bottom to top, the first driving assembly drives the empty grill groups to move upwards, the uppermost empty grill is parallel to a grill transfer slide rail 81, a second driving assembly drives a grill transfer plate 82 to move to transfer slide rails on two sides of the empty grill, and a second pushing air cylinder 83 pushes the transfer support plate to extend into the gap between the bottom surfaces of the uppermost empty grill to support the uppermost empty grill, the first driving assembly drives the empty grill group to move downwards, so that the uppermost empty grill is separated from the empty grill group, one empty grill is transferred into the grill transferring assembly 8 through the grill lifting assembly 7, and the second pushing air cylinder 83 moves the empty grill on the transferring supporting plate to the position right below the glass transferring slide rail.

Outside assembly line transports glued glass to pan feeding assembly line 2 in, the controller is with pan feeding assembly line 2 stall when infrared induction system senses doubling glass under glass adsorption device, glass lift subassembly drives glass adsorption device and moves down and adsorbs doubling glass, glass lift subassembly shifts up the glass adsorption device that adsorbs doubling glass to be higher than the height that subassembly 8 was transported to the gridion again, third drive assembly will transport the board and move to transporting directly over the layer board, glass lift subassembly will adsorb the glass adsorption device that has doubling glass again and move down and make doubling glass laminate in transporting the layer board, glass adsorption device and doubling glass separation, glass lift subassembly again with glass adsorption device move up, third drive assembly will transport the board again and move back to pan feeding assembly line 2 tops.

When the empty grill is provided with the cemented glass, the second pushing cylinder 83 moves the grill with the cemented glass on the transfer pallet to the position right above the grill lifting assembly 7 at the side of the grill output water line 6, the first driving assembly of the grill lifting assembly 7 at the side of the grill output water line 6 moves the lifting pallet to the level of the lower bottom surface of the grill with the cemented glass, the first pushing cylinder 73 of the grill lifting assembly 7 at the side of the grill output water line 6 presses the lifting pallet to the lower bottom surface of the grill with the cemented glass, the second pushing cylinder 83 on the grill transfer assembly 8 moves the transfer pallet out of the lower part of the grill with the cemented glass, at this time, the grill with the cemented glass is transferred into the grill lifting assembly 7 at the side of the grill output water line 6, and the first driving assembly of the grill lifting assembly 7 at the side of the grill output water line 6 moves the lifting pallet downwards, and the counting device counts and adds one to finish the loading, transporting and placing of the laminated glass.

The gluing, loading and placing actions are repeated, different from the first transfer, after the second pushing cylinder 83 moves the grill with the glued glass on the transfer pallet to the position right above the grill lifting assembly 7 on one side of the grill output water line 6, the first driving assembly of the grill lifting assembly 7 on one side of the grill output water line 6 supports the grill on the lifting pallet against the grill on the transfer pallet, the second pushing cylinder 83 on the grill transfer assembly 8 moves the transfer pallet out of the position below the grill with the glued glass, the grill with the glued glass is transferred into the grill lifting assembly 7 on one side of the grill output water line 6, the first driving assembly of the grill lifting assembly 7 on one side of the grill output water line 6 moves the lifting pallet downwards, the counting device counts one more, the glued glass loading and placing are completed, and the reciprocating actions are performed.

When the gridiron of the gridiron lifting assembly 7 at one side of the gridiron output assembly line 6 reaches a rated quantity, a third pushing cylinder arranged on the side of the gridiron input assembly line 5 and on the side of the frame 1 pushes the chassis into the chassis transfer assembly line, the chassis transfer assembly line transports the chassis to the gridiron output assembly line 6, the lifting device moves the chassis pallet to be flush with the bottom groove of the chassis, a fourth pushing cylinder extends out to stretch the chassis pallet into the bottom groove of the chassis and supports against the side surface of the chassis, the position of the chassis is adjusted, the lifting device supports the chassis, the fourth pushing cylinder retracts to accurately place the chassis under the gridiron output assembly line 6, the lifting device puts down the chassis by the fourth pushing cylinder to move the chassis pallet out of the bottom surface of the chassis, the first driving assembly of the gridiron lifting assembly 7 at one side of the gridiron output assembly, the second pushing cylinder 83 moves the lifting support plate out of the lower part of the chassis, and the grill output pipeline 6 moves the grill group filled with the laminated glass out of the automatic material receiving buffer machine of the vehicle-mounted laminated glass.

The above-mentioned embodiments only express the embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (7)

1. the utility model provides an on-vehicle doubling glass's automatic receipts material buffer, its characterized in that includes: the subassembly is transported to frame, pan feeding assembly line, glass, chassis, and subassembly, gridion input assembly line, gridion output assembly line, gridion lifting unit and gridion are transported to the subassembly, the frame is "protruding" style of calligraphy, the pan feeding assembly line sets up in the frame protruding portion, gridion input assembly line with gridion output assembly line sets up in the frame main part, gridion input assembly line with output gridion waterline parallel arrangement, gridion lifting unit is two sets of, and is two sets of gridion lifting unit is respectively the cross frame in gridion output assembly line and the frame of input gridion waterline both sides, the gridion is transported the subassembly and is extended to directly over another gridion lifting unit from directly over one gridion lifting unit, glass transports the assembly line and extends to gri.

2. The automatic material receiving buffer machine for the vehicle-mounted laminated glass according to claim 1, is characterized in that: the grill input assembly line and the grill output assembly line are symmetrically arranged on the main frame body.

3. The automatic material receiving buffer machine for vehicle-mounted laminated glass as claimed in claim 1, wherein the grill lifting assembly comprises: the lifting rod is vertically arranged on the rack, the supporting rod is arranged on the lifting rod and used for lifting the grill, and the first driving assembly is used for driving the supporting rod to lift.

4. the automatic material receiving and buffering machine for the vehicle-mounted laminated glass as claimed in claim 1, wherein the grill transferring assembly comprises: the gridion is transported slide rail, is set up gridion transportation board on the gridion transportation slide rail, drive gridion transportation board along gridion transportation slide rail motion's second drive assembly, set up on gridion transportation board and the second that the level was placed promotes the cylinder and set up on the second promotes the cylinder and the transportation layer board that the level was placed.

5. The automatic material receiving and buffering machine for the vehicle-mounted laminated glass according to claim 1, wherein the chassis transfer assembly comprises: the third that sets up in gridion input assembly line side frame promotes the cylinder, sets up fourth promotion cylinder in gridion output assembly line side frame, sets up the chassis between gridion input assembly line and gridion output assembly line and transports the assembly line, the assembly line is transported on the chassis perpendicular to gridion input assembly line and gridion output assembly line and gridion input assembly line setting transports the assembly line upstream on the chassis, is equipped with the mounting panel in gridion output assembly line side frame, is equipped with elevating gear on the mounting panel, the fourth promotes that the cylinder is fixed to be set up on elevating gear, fourth promotion cylinder and chassis parallel arrangement, fourth promotion cylinder tip is equipped with the chassis layer board that holds up the chassis.

6. The automatic material receiving and buffering machine for the vehicle-mounted laminated glass according to claim 1, wherein the glass transferring assembly comprises: glass transports slide rail, sets up glass on glass transports slide rail and transports board, drive glass transport board along glass transport slide rail motion's third drive assembly, set up glass lifting unit and set up the glass adsorption equipment in glass lifting unit below on glass transports the board, glass transports the slide rail and extends to gridion from pan feeding assembly line top and transports the subassembly top, slide rail and frame fixed connection are transported to glass.

7. The automatic material receiving and buffering machine for the vehicle-mounted laminated glass as claimed in claim 1, wherein an adjusting support frame and universal wheels are arranged at the bottom of the machine frame.