CN220446955U - Rubber shock pad processing material cooling arrangement - Google Patents

Abstract

The utility model relates to the technical field of rubber processing, in particular to a rubber shock pad processing material cooling device which comprises a flow pipeline, a cooling box, a cooling fan, a spray rack, a spray water pump, a reflux water pump and an auxiliary component, wherein the cooling box is arranged on the flow pipeline; the auxiliary component comprises a heat dissipation ring, a connecting frame, a communication pipeline, a collecting box, a heat dissipation wing plate, a return pipeline, a sorting component and a shielding component; the cooling ring is fixedly connected with the flow pipeline, the connecting frame is connected with the spray water pump, the connecting pipe is connected with the connecting frame, the collecting box is connected with the connecting pipe and fixedly installed on one side of the cooling box, the cooling wing plate is fixedly connected with the collecting box, the cooling liquid which can flow back through the components is classified and stored, the cooled cooling liquid is cooled and sprayed again in advance, and the cooling liquid with heat can be sprayed again after being cooled for a corresponding time, so that the whole continuous cooling effect is better.

Description

Rubber shock pad processing material cooling arrangement

Technical Field

The utility model relates to the technical field of rubber processing, in particular to a cooling device for rubber shock pad processing materials.

Background

When the rubber shock pad is processed, the raw materials are required to be cooled, the traditional cooling and cooling are generally to blow off the hot air emitted by the raw materials through the blowing of a fan, but the rapid cooling of the raw materials can not be completed only through air cooling, so that the whole cooling effect is not obvious.

At present, in order to optimize the cooling effect of cooling the rubber raw material, the cooling effect is more obvious by matching cooling through spraying of cooling water under the premise of adopting air cooling.

But adopt above-mentioned mode, in order to guarantee the cooling effect of cooling water and generally all can continuously spray cooling water when cooling through spraying cooling water, so just can use a large amount of cooling water to cool off, consequently, in order to can practice thrift the water resource cooling water and all can recycle, generally all set up corresponding collection reflux mechanism, so alright spray again after collecting the water that sprays down, when carrying out long-time spray cooling, the cooling water temperature that sprays also can slowly rise owing to constantly contact with rubber feed pipeline, thereby lead to cooling water itself in the circulation process to obtain effectual cooling, and then influence the subsequent cooling, make unable long-time continuous effective cooling of keeping.

Disclosure of Invention

The utility model aims to provide a cooling device for rubber shock pad processing materials, which can store the returned cooling liquid in a classified manner through a component, so that the cooling liquid which is stored in advance is cooled and sprayed again, and the cooling liquid with heat can be sprayed after being radiated for a corresponding time, so that the whole continuous cooling effect is better.

In order to achieve the above purpose, the utility model provides a rubber shock pad processing material cooling device, which comprises a flow pipeline, a cooling box, a cooling fan, a spray frame, a spray water pump and a reflux water pump, wherein the cooling box is arranged on the flow pipeline, the cooling fan is arranged on one side of the cooling box, the spray frame is arranged in the cooling box, the spray water pump is connected with the spray frame and is arranged on one side of the cooling box, and the reflux water pump is arranged on one side of the cooling box and also comprises an auxiliary component;

the auxiliary component comprises a heat dissipation ring, a connecting frame, a communication pipeline, a collecting box, a heat dissipation wing plate, a reflux pipeline, a sorting component and a shielding component; the cooling device comprises a cooling box, a connecting frame, a cooling box, a cooling wing plate, a spray pump, a connecting frame and a connecting frame, wherein the cooling ring is fixedly connected with the flow pipeline and sleeved on the flow pipeline, the connecting frame is connected with the spray pump and is positioned on one side of the spray pump, the connecting pipe is connected with the connecting frame and is positioned on one side of the connecting frame, the cooling box is connected with the connecting pipe and is fixedly installed on one side of the cooling box, and the cooling wing plate is fixedly connected with the collecting box and is positioned on one side of the collecting box.

The sorting component comprises a controller, a swinging plate, a lapping table, a driving part and an introducing part, wherein the controller is connected with the connecting frame and is positioned at one side of the connecting frame; the swinging plate is rotationally connected with the connecting frame and is positioned in the connecting frame; the lap joint table is fixedly connected with the connecting frame and is positioned at one side of the connecting frame, which is close to the swinging plate; the driving part is connected with the connecting frame; the guide-in part is positioned at one side of the connecting frame.

The driving component comprises a rotating gear, a sliding rack, a driving screw and a driving motor, wherein the rotating gear is fixedly connected with the swinging plate and is rotatably arranged on one side of the connecting frame; the sliding rack is meshed with the rotating gear and is installed on one side of the connecting frame in a sliding manner; the driving screw is in threaded connection with the sliding rack and is rotatably arranged on one side of the connecting frame; the output shaft of the driving motor is connected with the driving screw, and the driving motor is electrically connected with the controller and fixedly arranged on one side of the connecting frame.

The guiding-in part comprises an indicating block, a guiding-out spray head, a driving frame, a sliding table and a connecting plate, wherein the indicating block is fixedly connected with the rotating gear and is positioned at one side of the rotating gear; the guide-out spray head is rotationally connected with the return pipeline and is positioned at one side of the return pipeline; the driving frame is fixedly connected with the leading-out spray head and is positioned at one side of the leading-out spray head; the sliding table is in sliding connection with the driving frame and is positioned at one side of the driving frame; the connecting plate is rotationally connected with the sliding table and fixedly arranged on one side of the indicating block.

The shielding member comprises a fence and a triangular table, wherein the fence is fixedly connected with the collecting box and is positioned at one side of the collecting box, which is close to the leading-out spray head; the triangular table is fixedly connected with the collecting box and is positioned on one side, close to the leading-out spray head, of the collecting box.

The cooling device for the rubber shock pad processing material can guide the cooling liquid in the corresponding collecting box into the spraying frame through the spraying water pump, the connecting frame and the communicating pipeline to finish spraying, the sprayed cooling liquid can enter the backflow pipeline through the backflow water pump, then the cooling liquid is reintroduced into the collecting box through the leading-out nozzle connected with the backflow pipeline, when the cooling liquid is guided and sprayed, the swinging plate is matched with the lap joint table on the corresponding side under the driving of the rotating gear, when the cooling liquid position in the corresponding collecting box is reduced to the corresponding range, the controller can control the driving motor to drive the driving screw to rotate, the sliding rack can slide on the side edge of the connecting frame under the driving of the driving screw, when the sliding rack slides, the rotating gear drives the swinging plate to rotate, the connecting frame is communicated with the communicating pipeline on the other side and the collecting box through the rotation of the swinging plate, so that the cooling liquid in the collecting box on the other side can be led into the spraying frame, and meanwhile, when the rotating gear rotates, the indicating block also drives the connecting plate to rotate, the guide-out spray heads are driven to swing by the rotation of the connecting plate, so that the guide-out spray heads are aligned with the collection boxes for supplying cooling liquid before, the reflowed cooling liquid is guided into the corresponding collection boxes for cooling, and the driving motor can be controlled to reversely rotate by the controller after the cooling liquid of the collection boxes is lowered on the other side, and then alright keep backward flow coolant liquid can be in the corresponding after carrying out abundant cooling in the collection box again leading-in spray the frame sprays, realized can be through the component that is equipped with to carry out classification deposit to the coolant liquid of backward flow for deposit the coolant liquid that the cooling is good in advance and cool off again and spray, and take the radiating back of thermal coolant liquid alright pass through corresponding time to spray again, make whole continuous cooling effect better.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic view showing the overall structure of a rubber cushion processing material cooling apparatus according to a first embodiment of the present utility model.

Fig. 2 is an enlarged view at a of fig. 1 of a first embodiment of the present utility model.

Fig. 3 is an enlarged view at B of fig. 1 of a first embodiment of the present utility model.

Fig. 4 is a schematic view of the installation structure of the flow duct according to the first embodiment of the present utility model.

Fig. 5 is a schematic view of a connecting frame according to a first embodiment of the present utility model.

Fig. 6 is an enlarged view at C of fig. 5 of a first embodiment of the present utility model.

Fig. 7 is a schematic view showing the overall structure of a rubber cushion processing material cooling apparatus according to a second embodiment of the present utility model.

In the figure: 101-flow pipelines, 102-cooling boxes, 103-cooling fans, 104-spray frames, 105-spray water pumps, 106-reflux water pumps, 107-heat dissipation rings, 108-connecting frames, 109-communication pipelines, 110-collecting boxes, 111-heat dissipation wing plates, 112-reflux pipelines, 113-controllers, 114-swinging plates, 115-lapping platforms, 116-rotating gears, 117-sliding racks, 118-driving screws, 119-driving motors, 120-indicating blocks, 121-leading-out spray heads, 122-driving frames, 123-sliding platforms, 124-connecting plates, 201-fences and 202-triangular platforms.

Detailed Description

The following detailed description of embodiments of the utility model, examples of which are illustrated in the accompanying drawings and, by way of example, are intended to be illustrative, and not to be construed as limiting, of the utility model.

The first embodiment of the present application is:

referring to fig. 1 to 6, fig. 1 is a schematic view showing the structure of the whole rubber cushion processing material cooling apparatus, fig. 2 is an enlarged view of a portion a of fig. 1, fig. 3 is an enlarged view of a portion B of fig. 1, fig. 4 is a schematic view showing the installation structure of the flow pipe 101, fig. 5 is a schematic view showing the structure of the connection frame 108 in a cut-away manner, and fig. 6 is an enlarged view of a portion C of fig. 5.

The utility model provides a cooling device for a rubber shock pad processing material, which comprises: including flow pipeline 101, cooling tank 102, cooling fan 103, spray frame 104, spray pump 105, backward flow water pump 106 and auxiliary member, auxiliary member includes heat dissipation ring 107, link 108, communication pipeline 109, collection box 110, heat dissipation pterygoid lamina 111, backward flow pipeline 112, sorting member and shielding member, sorting member includes controller 113, swing plate 114, overlap joint platform 115, drive part and leading-in part, drive part includes rotation gear 116, sliding rack 117, drive screw 118 and driving motor 119, leading-in part includes instruction piece 120, derives shower nozzle 121, drive frame 122, sliding table 123 and connecting plate 124, and in order to guarantee that the cooling effect of cooling water generally can all continuously spray the cooling water when cooling through spraying the cooling water through the aforesaid scheme, so can use a large amount of cooling water to cool down, so in order to can all the water economy resource cooling water can all be used circularly, generally all set up corresponding collection backward flow mechanism, can collect the back to the water that follows that sprays, and spray, when carrying out long-time cooling down cooling water, also can the cooling water temperature that sprays down slowly and the cooling water can't be used for the cooling down, can't keep the cooling water continuously to cool down in order to guarantee the cooling water continuously and can't keep the cooling down in the cooling water continuous cooling time, can't be used for the cooling down device to the cooling down, can't be realized continuously because the cooling water can't be used continuously to the cooling down in the cooling device.

In this embodiment, the cooling tank 102 is installed on the flow pipeline 101, the cooling fan 103 is installed on one side of the cooling tank 102, the spray rack 104 is installed in the cooling tank 102, the spray pump 105 is connected with the spray rack 104 and installed on one side of the cooling tank 102, the reflux water pump 106 is installed on one side of the cooling tank 102, the cooling tank 102 is provided with a connecting groove for connecting the flow pipeline 101, the air outlet of the cooling fan 103 is matched with an air inlet arranged at the top of the cooling tank 102, a circulation groove for flowing air is arranged at the top of the cooling tank 102, the spray rack 104 for spraying cooling water is further arranged in the cooling tank 102, a plurality of atomizing spray heads are arranged on the spray rack 104, the spray rack 104 is connected with the water outlet end of the spray water pump 105 through a guide pipe, so that cooling water can be guided into the spray rack 104 through the water pump 105, then the spray of cooling water is completed through the spray rack 104, the water inlet end of the reflux water pump 106 is communicated with the cooling tank 102 through the guide pipe 106 so that cooling water can be recycled through the bottom of the reflux water pump 102.

Wherein the heat dissipation ring 107 is fixedly connected with the flow pipeline 101 and sleeved on the flow pipeline 101, the connecting frame 108 is connected with the spray water pump 105 and positioned at one side of the spray water pump 105, the communicating pipe 109 is connected with the connecting frame 108 and positioned at one side of the connecting frame 108, the collecting box 110 is connected with the communicating pipe 109 and fixedly installed at one side of the cooling box 102, the heat dissipation wing plate 111 is fixedly connected with the collecting box 110 and positioned at one side of the collecting box 110, a plurality of heat dissipation rings 107 are fixedly sleeved on the flow pipeline 101, the heat dissipation rings 107 are made of heat conducting materials, so that the heat dissipation rings 107 arranged when cooling is performed through spraying of cooling water can increase the whole contact area of the flow pipeline 101, and further improve the cooling effect on the flow pipeline 101, the connecting frame 108 is connected with the water inlet end of the spray water pump 105, the connecting frame 108 is respectively communicated with the two collecting boxes 110 fixedly arranged at the side edges of the cooling box 102 through two communicating pipes 109, the collecting boxes 110 are made of heat conducting materials, so that the cooling liquid in the collecting boxes 110 can be better radiated, a plurality of radiating wing plates 111 are fixedly arranged on the two collecting boxes 110, the spray water pump 105 can guide the cooling liquid collected in the collecting boxes 110 into the spray frame 104 through the communicating pipes 109 communicated with the connecting frame 108, when the cooling liquid in the collecting boxes 110 is guided out, the two collecting boxes 110 can be selected through the sorting members, the cooling liquid in the selected collecting boxes 110 can be guided into the spray frame 104 through the spray water pump 105, the cooling liquid in the collection box 110 which is not selected can be cooled by the heat dissipation wing plate 111, and meanwhile, the collection box 110 which is not selected can collect the reflux cooling liquid led out from the water outlet end of the reflux water pump 106 under the sorting purchase effect, so that the reflux cooling can be classified, collected and cooled, the integral continuous cooling effect is ensured, the reflux pipeline 112 is connected with the water outlet end of the reflux water pump 106, and the reflux pipeline 112 is fixedly installed on one side of the cooling box 102 so as to guide the reflux cooling liquid through the reflux pipeline 112.

Next, the controller 113 is connected to the connection frame 108 and located at one side of the connection frame 108; the swinging plate 114 is rotatably connected with the connecting frame 108 and is positioned in the connecting frame 108; the lapping table 115 is fixedly connected with the connecting frame 108, and is located at one side of the connecting frame 108 near the swinging plate 114; the driving part is connected with the connecting frame 108; the guiding component is positioned at one side of the connecting frame 108, the rotating gear 116 is fixedly connected with the swinging plate 114 and is rotatably arranged at one side of the connecting frame 108; the sliding rack 117 is engaged with the rotating gear 116 and is slidably mounted on one side of the connection frame 108; the driving screw 118 is in threaded connection with the sliding rack 117 and is rotatably installed at one side of the connecting frame 108; an output shaft of the driving motor 119 is connected with the driving screw 118, the driving motor 119 is electrically connected with the controller 113 and is fixedly installed at one side of the connecting frame 108, and the indicating block 120 is fixedly connected with the rotating gear 116 and is positioned at one side of the rotating gear 116; the guiding-out nozzle 121 is rotatably connected with the return pipe 112 and is positioned at one side of the return pipe 112; the driving frame 122 is fixedly connected with the leading-out nozzle 121 and is positioned at one side of the leading-out nozzle 121; the sliding table 123 is slidably connected with the driving frame 122 and is located at one side of the driving frame 122; the connecting plate 124 is rotatably connected with the sliding table 123 and is fixedly installed on one side of the indicating block 120, the controller 113 is fixedly installed on one side of the connecting frame 108, the swinging plate 114 is rotatably installed on the connecting frame 108 and two communicating pipes 109, the two lapping tables 115 are installed on two sides of the inner wall of the connecting frame 108, when the swinging plate 114 rotates to the connecting frame 108 and one side of the communicating pipes 109, the top of the swinging plate 114 is matched with the lapping table 115 on the corresponding side, so that the connecting frame 108 can be only connected with the communicating pipes 109 on the other side, the connecting frame 108 can be selectively controlled by the rotation of the swinging plate 114, the circular table 116 is fixedly connected with the swinging plate 114, the rotating gear 116 is matched with the sliding block 117 which is slidably installed on the side of the connecting frame 108, the driving block 118 is electrically connected with the screw rod 117 through the driving block 119, the driving block 118 is also fixedly arranged on the outer side of the connecting frame 116, the driving block is correspondingly meshed with the screw rod 117, the driving block 118 is further rotatably controlled by the driving block 119, and the driving block 118 is correspondingly screwed with the screw rod 118, the direction of the indication block 120 corresponds to the position of the swinging plate 114, so that a user can confirm the position of the swinging plate 114 through the indication block 120, the guiding-out spray head 121 is rotatably mounted on one side of the backflow pipeline 112, the driving frame 122 is fixedly mounted on the outer side of the guiding-out spray head 121, a sliding groove for sliding the sliding table 123 is formed in the driving frame 122, the connecting plate 124 is mounted between the sliding table 123 and the indication block 120, one side of the connecting plate 124 is rotatably kept with the sliding table 123, the other side of the connecting plate 124 is fixedly connected with the indication block 120, when the indication block 120 rotates along with the rotation of the rotating gear 116, the connecting plate 124 rotates under the driving of the indication block 120, and when the connecting plate 124 rotates, the sliding table 123 can drive the driving frame 122 to swing in the corresponding direction, so as to drive the driving frame 122 and the guiding-out spray head 121 to change direction, and the cooling liquid guided out of the guiding-out spray head 121 can be matched with the designated collecting box 110.

In this embodiment, when the cooling device for processing materials with rubber shock pad is used, the cooling liquid in the corresponding collecting box 110 can be led into the spraying frame 104 through the spraying water pump 105, the connecting frame 108 and the communicating pipe 109, and sprayed cooling liquid can enter the reflux pipeline 112 through the reflux water pump 106, then the cooling liquid is led into the collecting box 110 again through the leading-out spray head 121 connected with the reflux pipeline 112, when the cooling liquid is led in and sprayed, the swinging plate 114 is matched with the lapping table 115 on one side under the driving of the rotating gear 116, when the cooling liquid position in the corresponding collecting box 110 is lowered to the corresponding range, the driving motor 119 is controlled to drive the driving screw 118 to rotate, the sliding 117 slides on the side edge of the connecting frame 108 under the driving of the driving screw 118, when the sliding is slid, the swinging plate 116 drives the swinging plate 116 to drive the cooling liquid to move into the connecting plate 110, and the other side of the connecting frame 110 is also driven by the swinging plate 114, and the connecting plate is driven by the swinging plate 114, and the collecting box 110 is driven by the swinging plate 122, and the collecting box is guided into the connecting plate 110, and the collecting box is driven by the connecting plate 124 is driven to rotate, and the cooling liquid is guided into the collecting box 110 through the connecting plate 124, and the connecting plate is driven by the swinging plate 124 to rotate the connecting plate 122 when the cooling liquid is guided into the collecting box 110, so on the opposite side after the cooling liquid level of the collecting box 110 is reduced, the driving motor 119 can be controlled to reversely rotate through the controller 113, so that the back-flowing cooling liquid can be kept to be sufficiently cooled in the corresponding collecting box 110 and then guided into the spraying frame 104 for spraying, the purpose that the back-flowing cooling liquid can be classified and stored through the components is achieved, the cooling liquid which is well cooled is stored in advance for cooling and spraying again, and the cooling liquid with heat can be sprayed after heat dissipation in the corresponding time, so that the whole continuous cooling effect is better.

Second embodiment:

referring to fig. 7, fig. 7 is a schematic structural diagram of an entire cooling apparatus for rubber cushion processing materials according to a second embodiment, and the shielding member provided by the present utility model includes a rail 201 and a triangular stand 202.

Wherein the rail 201 is fixedly connected with the collecting box 110 and is positioned at one side of the collecting box 110 close to the guiding-out nozzle 121; the triangular table 202 is fixedly connected with the collecting box 110 and is located at one side of the collecting box 110, which is close to the guiding-out spray nozzles 121, the two collecting boxes 110 are framed by the fence 201, and the triangular table 202 is fixedly installed between the two collecting boxes 110, so that when the guiding-out spray nozzles 121 swing and convert, the backflow cooling liquid sprayed by the guiding-out spray nozzles 121 can be blocked by the fence 201 and the triangular table 202, and waste caused by the cooling liquid flowing to the ground is avoided.

When using the rubber shock pad processing material cooling arrangement of this embodiment, can be through the installation the rail 201 shelters from the coolant liquid, avoids the leakage of coolant liquid, then through being equipped with the tripod 202 can be right derive the coolant liquid that shower nozzle 121 dripped when the swing is led, avoid the coolant liquid to reveal away from two from the gap between the collecting box 110, and then guaranteed the abundant recycle of coolant liquid, very big reinforcing the practicality of whole device.

The foregoing disclosure is only illustrative of one or more preferred embodiments of the present application and is not intended to limit the scope of the claims hereof, as it is to be understood by those skilled in the art that all or part of the process of implementing the described embodiment may be practiced otherwise than as specifically described and illustrated by the appended claims.

Claims (5)

1. The cooling equipment for the rubber shock pad processing material comprises a flow pipeline, a cooling box, a cooling fan, a spray frame, a spray water pump and a reflux water pump, wherein the cooling box is arranged on the flow pipeline, the cooling fan is arranged on one side of the cooling box, the spray frame is arranged in the cooling box, the spray water pump is connected with the spray frame and is arranged on one side of the cooling box, the reflux water pump is arranged on one side of the cooling box,

also comprises an auxiliary component;

the auxiliary component comprises a heat dissipation ring, a connecting frame, a communication pipeline, a collecting box, a heat dissipation wing plate, a reflux pipeline, a sorting component and a shielding component; the cooling device comprises a cooling box, a connecting frame, a cooling box, a cooling wing plate, a spray pump, a connecting frame and a connecting frame, wherein the cooling ring is fixedly connected with the flow pipeline and sleeved on the flow pipeline, the connecting frame is connected with the spray pump and is positioned on one side of the spray pump, the connecting pipe is connected with the connecting frame and is positioned on one side of the connecting frame, the cooling box is connected with the connecting pipe and is fixedly installed on one side of the cooling box, and the cooling wing plate is fixedly connected with the collecting box and is positioned on one side of the collecting box.

2. The rubber cushion processing material cooling apparatus according to claim 1, wherein,

the sorting component comprises a controller, a swinging plate, a lapping table, a driving part and an introducing part, wherein the controller is connected with the connecting frame and is positioned at one side of the connecting frame; the swinging plate is rotationally connected with the connecting frame and is positioned in the connecting frame; the lap joint table is fixedly connected with the connecting frame and is positioned at one side of the connecting frame, which is close to the swinging plate; the driving part is connected with the connecting frame; the introduction member is positioned at one side of the connecting frame.

3. The rubber cushion processing material cooling apparatus according to claim 2, wherein,

the driving part comprises a rotating gear, a sliding rack, a driving screw and a driving motor, wherein the rotating gear is fixedly connected with the swinging plate and is rotatably arranged on one side of the connecting frame; the sliding rack is meshed with the rotating gear and is installed on one side of the connecting frame in a sliding manner; the driving screw is in threaded connection with the sliding rack and is rotatably arranged on one side of the connecting frame; the output shaft of the driving motor is connected with the driving screw, and the driving motor is electrically connected with the controller and fixedly arranged on one side of the connecting frame.

4. The rubber cushion processing material cooling apparatus according to claim 3, wherein,

the guiding-in part comprises an indicating block, a guiding-out spray head, a driving frame, a sliding table and a connecting plate, wherein the indicating block is fixedly connected with the rotating gear and is positioned at one side of the rotating gear; the guide-out spray head is rotationally connected with the return pipeline and is positioned at one side of the return pipeline; the driving frame is fixedly connected with the leading-out spray head and is positioned at one side of the leading-out spray head; the sliding table is in sliding connection with the driving frame and is positioned at one side of the driving frame; the connecting plate is rotationally connected with the sliding table and fixedly arranged on one side of the indicating block.

5. The rubber cushion processing material cooling apparatus according to claim 4, wherein,

the shielding member comprises a fence and a triangular table, wherein the fence is fixedly connected with the collecting box and is positioned at one side of the collecting box, which is close to the leading-out spray head; the triangular table is fixedly connected with the collecting box and is positioned on one side, close to the leading-out spray head, of the collecting box.