CN219055387U - Heat insulation sponge processing splicing frame - Google Patents

Abstract

The utility model discloses a heat-insulating sponge processing splicing frame, in particular to the technical field of heat-insulating sponge processing splicing frames, which comprises a pressing cylinder, wherein the pushing end of the pressing cylinder is fixedly connected with a pressing sleeve plate, the lower surface of the pressing sleeve plate is fixedly connected with a resistance heating plate, and a splicing discharging assembly is arranged below the resistance heating plate; the spliced discharging assembly comprises a positioning frame plate arranged below the resistance heating plate, and a transmission rod is embedded and penetrated into one side of the discharging rotating plate. According to the utility model, the spliced discharging assembly is arranged, the servo gear motor is started to drive the transmission rod to rotate clockwise by one hundred and eighty degrees, and the transmission rod drives the two discharging rotating plates to rotate, so that the processed heat insulation sponge can be overturned out of the discharging rotating plates and can fall into the bearing box for bearing, the heat insulation sponge is conveniently and automatically discharged, personnel are not required to take the heat insulation sponge, and time and labor are saved.

Description

Heat insulation sponge processing splicing frame

Technical Field

The utility model relates to the technical field of heat-insulating sponge processing splicing frames, in particular to a heat-insulating sponge processing splicing frame.

Background

In the sponge processing process, the two polyurethane heat-insulating sponges are coated with glue on the opposite sides of the two polyurethane heat-insulating sponges to form adhesion by using a pressing force, so that the heat-insulating sponges are formed, and a splicing frame is needed to finish splicing operation during processing.

The utility model patent of patent application publication No. CN217073084U in the prior art discloses a hot press forming device for producing environment-friendly sponge, which comprises a workbench, be provided with hot press device on the up end of workstation, be located on the up end of workstation hot press device's the output is provided with clamping assembly, clamping assembly is including placing the board, place the board set up in the top of workstation, place the periphery of board lower terminal surface be provided with the multiunit with the flexible subassembly that the up end links to each other of workstation, the middle part of place the board lower terminal surface be provided with run through to the support column of workstation inside, the periphery rotation of support column is connected with the rotary drum, the upper end of rotary drum with the up end of workstation inside rotates to be connected, this hot press forming device for producing environment-friendly sponge has solved among the prior art and has the defect such as the clamping structure of current sponge pressfitting machine is not very convenient.

But still have certain defect in the use of above-mentioned this splice frame, the thermal-insulated sponge of splice shaping back still needs personnel to take out it and place inside the box of appointed holding, and after every pair of thermal-insulated sponge was assembled like this, still need take out, get material efficiency like this lower, therefore splice efficiency reduces by a wide margin.

Disclosure of Invention

The technical scheme of the utility model aims at solving the technical problem that the prior art is too single, provides a solution which is obviously different from the prior art, and aims to overcome the defects of the prior art, the utility model provides the heat-insulating sponge processing splicing frame which solves the problems that in the prior art, the heat-insulating sponge is required to be taken out and placed in a box body appointed to be held by a person after splicing and molding, and then the heat-insulating sponge is required to be taken out after being spliced, so that the material taking efficiency is lower, and the splicing efficiency is greatly reduced.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the heat-insulating sponge processing splicing frame comprises a pressing cylinder, wherein the pushing end of the pressing cylinder is fixedly connected with a pressing sleeve plate, the lower surface of the pressing sleeve plate is fixedly connected with a resistance heating plate, and a splicing discharging assembly is arranged below the resistance heating plate;

the spliced discharging assembly comprises a positioning frame plate arranged below the resistance heating plate, the top end of the positioning frame plate is embedded with two symmetrically arranged discharging rotating plates, a transmission rod is embedded and penetrated in one side of the discharging rotating plates, a servo gear motor is connected with one end of the transmission rod at the same center of a circle, and each upper surface of the discharging rotating plates is welded with a flow attaching block.

Preferably, the two discharging rotating plates are welded and fixed with the transmission rod, the transmission rod is made of stainless steel, and the transmission rod is in clamping transmission with the output end of the servo speed reducing motor through a bolt.

Preferably, the outside of transfer line just is close to its another tip position department and is equipped with the lantern ring bearing block, and through bearing swing joint between lantern ring bearing block and the transfer line, the top of location framed board just is close to its four corner positions department all welded and has the guide pillar, and the guide pillar top runs through and pushes down the collar board bottom surface and extends to the top position department swing joint who pushes down the collar board, the place ahead of location framed board is fixed with the control button that is used for controlling servo gear motor clockwise or anticlockwise rotation through hot melt adhesive.

Preferably, the locating blocks are welded on two sides of the locating frame plate, locating grooves are formed in the top ends of the locating blocks in an embedded mode, the inserting support plates are inserted into the locating grooves, and the bearing boxes are welded at one end portions of the inserting support plates.

The utility model has the technical effects and advantages that:

1. through setting up concatenation ejection of compact subassembly, start servo gear motor and drive the transfer line and rotate one hundred eighty degrees clockwise, the transfer line drives two ejection of compact rotor plates and rotate, can make the thermal-insulated sponge that processes overturn away from ejection of compact rotor plate, can drop to the inside of holding case and take up, conveniently with thermal-insulated sponge automatic discharge, need not personnel and take, labour saving and time saving more;

2. after the processed heat insulation sponge enters the inside of the carrying case, the carrying case can be lifted upwards, the inserting support plate moves upwards along the guide of the inner wall of the positioning groove, the inserting support plate is separated from the positioning block, the carrying case is taken out, and the carrying case is convenient to replace.

Drawings

Fig. 1 is a schematic diagram of a front view structure of a heat insulation sponge processing splicing frame of the utility model.

Fig. 2 is a schematic top view of a heat insulation sponge processing splicing frame of the present utility model.

Fig. 3 is a schematic structural view of a splicing and discharging assembly in a splicing frame for processing heat-insulating sponge.

Fig. 4 is an enlarged schematic view of the structure of fig. 2 a according to the present utility model.

The reference numerals are: 1. a pressing cylinder; 2. pressing down the collar plate; 3. positioning a frame plate; 4. a discharging rotating plate; 5. a transmission rod; 6. a bonding block; 7. a servo gear motor; 8. a collar bearing block; 9. a guide post; 10. a resistance heating plate; 11. a control button; 12. a positioning block; 13. a positioning groove; 14. inserting a support plate; 15. and (5) carrying out box loading.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

1-4, should remove and be provided with the concatenation play material subassembly on the base, the setting of concatenation play material subassembly can be to the heat insulation sponge processing back by oneself backward upset ejection of compact, need not artifical ejection of compact, effectively improves and assembles efficiency, and the concrete structure of concatenation play material subassembly sets up as follows:

in this embodiment, as shown in fig. 1-3, the spliced discharging assembly includes a positioning frame plate 3 disposed below a resistance heating plate 10, two symmetrically disposed discharging rotating plates 4 are embedded in the top end of the positioning frame plate 3, a transmission rod 5 is embedded in one side of each discharging rotating plate 4, a servo reducing motor 7 is concentrically connected to one end of the transmission rod 5, a flow attaching block 6 is welded on the upper surface of each discharging rotating plate 4, the two discharging rotating plates 4 are welded and fixed with the transmission rod 5, the transmission rod 5 is made of stainless steel, and the transmission rod 5 and the output end of the servo reducing motor 7 are in transmission through pin clamping;

when the heat-insulating sponge is processed and assembled, polyurethane heat-insulating sponge can be placed in a groove on the inner wall of the concave positioning frame plate 3, a layer of glue is coated on the upper surface of the groove, then another polyurethane heat-insulating sponge is directly placed in the groove on the inner wall of the positioning frame plate 3, so that the two polyurethane heat-insulating sponges are bonded and spliced, then the pressing cylinder 1 is started to drive the pressing collar plate 2 to move downwards, the resistance heating plate 10 can be electrified and heated, the resistance heating plate 10 can be pressed downwards to the position of the upper surface of the polyurethane heat-insulating sponge, and the heat-insulating sponges can be bonded and spliced, so that the heat-insulating sponge is spliced;

during the ejection of compact, can start servo gear motor 7 and drive transfer line 5 clockwise rotation one hundred eighty degrees, transfer line 5 drives two ejection of compact rotor plates 4 and rotate, ejection of compact rotor plate 4 drives laminating piece 6 and rotates, can make the thermal-insulated sponge that processes like this overturn away from ejection of compact rotor plate 4, can drop to the inside of holding case 15 and take up, then start servo gear motor 7 and drive transfer line 5 anticlockwise rotation one hundred eighty degrees again, two ejection of compact rotor plates 4 automatic re-setting arrives location frame plate 3 inside position department, so conveniently with thermal-insulated sponge automatic discharging, need not personnel and take, labour saving and time saving more.

In this embodiment, as shown in fig. 1-3, a collar bearing block 8 is disposed at the outside of the transmission rod 5 and near the other end thereof, and the collar bearing block 8 is movably connected with the transmission rod 5 through a bearing, so that the transmission rod 5 can rotate inside the collar bearing block 8 stably when rotating, guide posts 9 are welded at the top ends of the positioning frame plates 3 near the four corner positions thereof, and the top ends of the guide posts 9 penetrate through the bottom surface of the pressing down collar plate 2 and extend to the upper position of the pressing down collar plate 2, so that the pressing down collar plate 2 can move downwards along the four guide posts 9 when moving downwards, and the control buttons 11 for controlling the servo speed reducer 7 to rotate clockwise or anticlockwise are fixed in front of the positioning frame plates 3 through hot melt adhesives, so that the control buttons 11 can start the servo speed reducer 7 to rotate anticlockwise or rotate clockwise.

In this embodiment, as shown in fig. 1-4, positioning blocks 12 are welded on both sides of the positioning frame plate 3, positioning grooves 13 are embedded and formed in the top ends of each positioning block 12, inserting support plates 14 are inserted into the positioning grooves 13, and a carrying case 15 is welded at one end of each inserting support plate 14;

when the heat insulation sponge is used in the embodiment, after the processed heat insulation sponge enters the bearing box 15, the bearing box 15 can be lifted upwards, the bearing box 15 drives the inserting support plate 14 to move upwards, the inserting support plate 14 moves upwards along the inner wall of the positioning groove 13, the inserting support plate 14 is separated from the positioning block 12, the bearing box 15 is taken out, the new bearing box 15 moves downwards, and the bearing box 15 drives the new inserting support plate 14 to be inserted into the positioning block 12 to complete inserting, so that the bearing box 15 is convenient to replace.

In this embodiment, it has been explained that the splice frame is used for processing the heat-insulating sponge, so that the splice frame is only limited to use in processing the heat-insulating sponge, and no other description is limited to use products other than processing the heat-insulating sponge, so that only how to use the splice frame in processing the heat-insulating sponge is protected in the technical field, and the technical scheme solved in this embodiment is completely adapted to and associated with the name of the splice frame for processing the heat-insulating sponge.

The last points to be described are: first, in the description of the present application, it should be noted that, unless otherwise specified and defined, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be mechanical or electrical, or may be a direct connection between two elements, and "upper," "lower," "left," "right," etc. are merely used to indicate relative positional relationships, which may be changed when the absolute position of the object being described is changed;

secondly: in the drawings of the disclosed embodiments, only the structures related to the embodiments of the present disclosure are referred to, and other structures can refer to the common design, so that the same embodiment and different embodiments of the present disclosure can be combined with each other under the condition of no conflict;

finally: the foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and principles of the utility model are intended to be included within the scope of the utility model.

Claims (7)

1. The utility model provides a thermal-insulated sponge processing concatenation frame, includes down air cylinder (1), the push end fixedly connected with of air cylinder (1) pushes down collar board (2), is pushing down the lower surface fixedly connected with resistance heating board (10) of collar board (2), its characterized in that: a spliced discharging assembly is arranged below the resistance heating plate (10);

the splice discharging assembly comprises a positioning frame plate (3) arranged below a resistance heating plate (10), two symmetrically arranged discharging rotating plates (4) are embedded in the top end of the positioning frame plate (3) in a movable connection mode, a transmission rod (5) is embedded in one side of each discharging rotating plate (4), a servo gear motor (7) is connected to one end of each transmission rod (5) in the same center, and a flow attaching block (6) is welded on the upper surface of each discharging rotating plate (4).

2. The insulating sponge processing splice holder of claim 1, wherein: the two discharging rotating plates (4) are welded and fixed with the transmission rod (5), and the transmission rod (5) is made of stainless steel.

3. The insulating sponge processing splice holder of claim 1, wherein: the transmission rod (5) is in clamping transmission with the output end of the servo gear motor (7) through a bolt.

4. The insulating sponge processing splice holder of claim 1, wherein: the outside of the transmission rod (5) and the position close to the other end part of the transmission rod are provided with a lantern ring bearing block (8), and the lantern ring bearing block (8) is movably connected with the transmission rod (5) through a bearing.

5. The insulating sponge processing splice holder of claim 1, wherein: the top end of the positioning frame plate (3) and the positions close to the four corners of the positioning frame plate are welded with guide posts (9), and the top ends of the guide posts (9) penetrate through the bottom surface of the pressing collar plate (2) and extend to the upper position of the pressing collar plate (2) to be movably connected.

6. The insulating sponge processing splice holder of claim 1, wherein: a control button (11) for controlling the servo speed reduction motor (7) to rotate clockwise or anticlockwise is fixed in front of the positioning frame plate (3) through hot melt adhesive.

7. The insulating sponge processing splice holder of claim 1, wherein: positioning blocks (12) are welded on two sides of the positioning frame plate (3), positioning grooves (13) are formed in the top end of each positioning block (12) in an embedded mode, inserting support plates (14) are inserted into the positioning grooves (13), and a carrying box (15) is welded at one end portion of each inserting support plate (14).

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