CN212636361U - Material distribution device - Google Patents

Abstract

The utility model discloses a material distributing device, at least, comprises a mounting assembly and at least one material distributing element, the mounting assembly is provided with a fixing element, the fixing element is arranged on a forming device, two sides of the fixing element are respectively pivoted with an extending element, the extending element can be adjusted and rotated, the end of the extending element is provided with a clamping element, the clamping element is connected with the material distributing element, and the material distributing element can be rapidly disassembled and assembled; the cloth elements can be connected with a plurality of groups to match with the cloth range, so that the cloth elements can be installed at proper positions through the installation assembly, and an operator can freely adjust the discharging angle and the cloth range.

Description

Material distribution device

Technical Field

The utility model particularly relates to a can cooperate the foaming feed machine of making various thermal-insulated syllable-dividing metal sheet, freezer board, compartment material, let expanded material can evenly foam the distributing device innovative design who distributes in the inboard side of metal sheet.

Background

A conventional foam material distribution device, such as a "foam material flow distribution nozzle" of taiwan invention No. I667073 (chinese utility model No. CN 209158740U), comprises an outer pipe and an equal-ratio distribution pipe system installed inside the outer pipe, wherein the equal-ratio distribution pipe system sequentially comprises a first distribution layer to an mth distribution layer, wherein the first distribution layer has a first distribution segment, the mth distribution layer is further provided with a plurality of distribution segments, each distribution segment of each distribution layer has a distribution inlet and a distribution outlet, the distance from the distribution inlet to each distribution outlet is equal to that of two adjacent distribution layers, each distribution outlet of each distribution segment in the previous distribution layer is correspondingly connected to the distribution inlet of the distribution segment in the next distribution layer, and a plurality of nozzles are respectively installed at each distribution outlet of the mth distribution layer.

In the prior art, the foaming material is sprayed on the surface of the steel plate through the nozzles by the multi-layer branch pipes, so as to perform foaming and expansion operations. The direction of the shunting outlet matched with each nozzle is fixed, and when the foaming material is sprayed to the surface of the steel plate through the nozzles, the foaming material can be splashed, so that the problems that the foaming material scraps pollute the operating environment and the foaming material is wasted are caused. Secondly, a plurality of shunting layers all need cooperate the installation environment and fixed, let this equipment can't cooperate the steel sheet width freely to adjust the nozzle position, cause user's puzzlement and inconvenience. After each use, the foaming material blocking the internal flow passage is cleaned and removed manually by a chemical agent (Dimethyl Formamide), but the chemical agent has toxicity, is easy to cause environmental pollution, and has certain danger and hazard to the health of cleaning personnel.

Another existing commercially available distributing rod is a structure that is removed and discarded after being used once, that is, when the forming device is stopped from a feeding state, the residual foaming material in the distributing rod and the pipeline directly blocks the pipe joint, the pipeline and the distributing rod installed behind the foaming material nozzle, some of the commercially available forming devices only remove and discard the distributing rod, and some of the commercially available forming devices remove and discard the pipeline and the distributing rod at the same time, but the manufacturing cost is expensive, and the pipeline, the pipe joint or the pipe joint made of metal material is cleaned and cleaned by a chemical agent (dimethylformamide, Dimethyl formide) to block the foaming material in the inner flow passage, but the chemical agent has toxicity, is easy to cause environmental pollution, has certain danger and hazard to the health of cleaning personnel, and is not easy to clean the inner flow passage of the pipeline, the pipe joint or the pipe joint, affecting the quality of the supplied foam material in the next use.

Therefore, the present inventor has been made to solve the above problems of the prior art and to accumulate many years of research, development and manufacturing experience in the related art.

SUMMERY OF THE UTILITY MODEL

The utility model aims at having the angle that sets up of freely adjusting cloth component to change foaming material blowout angle, avoid splashing in the twinkling of an eye of foaming material contact steel sheet, can not have the problem of foaming material polluted environment.

The next purpose of the utility model is to freely adjust the width of the cloth element to adapt to the forming width of the heat and sound insulation metal plate, the freezer plate, the compartment material and the like, and to match with the forming equipment to manufacture the practical design of various commodity specifications.

The utility model discloses a still another purpose, it is as disposable distributing device, can pull down T type or Y type coupling, feed pipe and cloth component and the foaming shower nozzle that the plastic material made fast and separate and abandon, can reduce cost to avoid the risk and the cost of manual cleaning coupling.

In order to achieve the above object, the material distribution device of the present invention at least comprises an installation component and at least one material distribution element, wherein the installation component is disposed at a suitable position of the forming device through a fixing element, and an extension element is disposed at each of two sides of the fixing element to allow the two extension elements to be adjusted and rotated; the cloth elements can be connected with a plurality of groups to match with the cloth range, so that the cloth elements can be installed at proper positions through the installation assembly, and the cloth device capable of freely adjusting the discharging angle and range is innovative.

In one embodiment, the mounting assembly at least includes a fixing element, two extending elements and two clamping elements; the fixing element is provided with a long arm to be arranged at a proper position of the forming equipment, one end of the long arm is provided with a shaft end, the shaft end consists of an upper element and a lower element, and a containing groove is arranged between the upper element and the lower element.

In one embodiment, the connection between the long arm and the axial end is disposed through a fulcrum shaft in a fulcrum shaft hole parallel to the long arm and the axial end, so that the axial end can change the angle of the axial end and the long arm through the fulcrum shaft, and thus the spraying angle of the cloth element can be changed.

In one embodiment, the two extending elements are axially disposed at the axial end of the fixing element, one ends of the two extending elements are mounted in the accommodating groove and do not contact with each other, and the two extending elements respectively pass through the extending elements from the upper element at the axial end of the fixing element to the lower element by a shaft rod and are bolted to the lower element, so that the two extending elements can be adjusted and rotated.

In one embodiment, the two clamping elements are respectively disposed at the ends of the extension element, the clamping elements are respectively axially disposed below the ends of a rod body and the extension element, and the axial arrangement is completed by the shaft rod passing through the shaft hole disposed below the ends of the extension element and the shaft hole of the rod body.

In one embodiment, the lower ends of the rods of the clamping elements are respectively provided with a clamping body, the clamping bodies are respectively provided with a clamping groove for the arrangement of the cloth element, and the clamping bodies are bolted on the clamping bodies through a tightening element and extend into the clamping grooves; after the cloth element is installed in the clamping groove, the tightening element can be rotated to generate a forward and backward movement effect, the tightening element can tighten the cloth element, the cloth element is fixed, and the cloth element can be rapidly disassembled and replaced through the clamping element.

In one embodiment, the material distributing element is provided with a material inlet, and the material inlet can be quickly connected with the material supplying pipe and then tightened by the pipe bundle element.

In an embodiment, the material distributing element uses the feeding hole as a reference, a first group of discharging holes and a second group of discharging holes are distributed on two sides of the material distributing element, and then the center of the feeding hole is used as a reference, the length of the material channel of each group of discharging holes is the longest length of the material channel of the feeding hole closest to the center reference of the feeding hole, and the lengths are sequentially decreased progressively, so that the foaming material can be evenly distributed to the discharging holes to be evenly discharged after entering the internal flow channel of the material distributing element through the feeding hole, and the surface foaming states of the metal plate, the freezer plate, the partition plate and the like are more average, and the quality is better.

In one embodiment, the cloth member has a first connecting end and a second connecting end, the first connecting end has a hole, and the second connecting end has a shaft; therefore, two adjacent cloth elements can be arranged as the shaft of the second connecting end through the corresponding holes of the first connecting end and are connected and combined with each other, so that the adjacent cloth elements can generate the function of angular rotation through the mutual connection of the first connecting end and the second connecting end.

The utility model discloses a distributing device, aforementioned cloth component if constitute by more than one, then the accessible first link up end and second link up end between the adjacent cloth component and link up mutually to let adjacent cloth component can link up mutually through this first link up end and second and produce angle pivoted function, and the width of making thermal-insulated syllable-dividing metal sheet, freezer board, compartment material etc. with cooperation former and decide.

The utility model discloses a distributing device, the aforementioned installation component of aforementioned cloth component accessible uses adjustment ejection of compact angle to inside, outside or downwards to the demand of the actual ejection of compact of cooperation.

The utility model discloses a distributing device, aforementioned cloth component set up a plurality of discharge openings, the runner length of each discharge opening to the pan feeding mouth is the benchmark, and the material that is close to the discharge opening of this pan feeding mouth more says that length is longer more, lets each this discharge opening all can produce the same or the load that is close, but lets foaming material evenly distributed in a surface of metal sheet, freezer plate, compartment material, and the finished product after letting the foaming is more level and smooth good.

Drawings

Fig. 1 is an installation view of the present invention.

Fig. 1A is a view showing another embodiment of the pipe joint of the present invention.

Fig. 2 is a top view of the mounting assembly of the present invention.

Fig. 3 is a cross-sectional view of 3-3 of fig. 2.

Fig. 4 is a cross-sectional view 4-4 of fig. 2.

Fig. 5 is a side view of the present invention.

Fig. 6 is a cross-sectional view of 6-6 of fig. 5.

Fig. 7 is a schematic view of the adjustment of the discharging angle of the distributing element according to the present invention.

Fig. 8 is a top view of the mounting assembly and fabric element assembly of the present invention.

Fig. 9 is a partial assembled cross-sectional view of the mounting assembly and fabric element of the present invention.

Fig. 10 is a view for adjusting the discharging width according to the present invention.

Fig. 11 is a second view of adjusting the discharging width of the present invention.

Fig. 12 is a plan view of the cloth member of the present invention.

Fig. 13 is a side view of the cloth member of the present invention.

Fig. 14 is a cross-sectional view 14-14 of fig. 13.

Figure 15 is a view of the interconnection of adjacent fabric elements according to the present invention.

Fig. 16 is a partial cross-sectional enlarged view of fig. 15.

Fig. 17 is a view showing the cloth members of the present invention in a freely rotatable position after they are engaged with each other.

Description of the main element symbols:

1, mounting a component; 10a fixing element;

100 long arms; 101 an axial end;

101a upper element; 101b a lower element;

101c containing groove; 102 fulcrum;

103 branch shaft holes; 11a, 11b extension elements;

110a, 110b shaft; 12a, 12b sandwich the element;

120a, 120b rod body; 121a, 121b shaft;

122a, 122 b; 123a, 123b clamp grooves;

124a, 124b urging the elements; 2. 2a, 2b cloth elements;

20 feeding holes; 21 a-21 f discharge holes;

l material channel length; 20a internal flow passage;

22a first engagement end; 23a second engagement end;

220 holes; 230 shafts;

3, a feeding pipe; 30 pipe joints;

31 foam nozzle.

Detailed Description

For a further understanding of the present invention, reference is made to fig. 1 to 17 for a preferred embodiment of the distributing device, which comprises at least one mounting assembly 1 and at least one distributing element 2.

As shown in fig. 1, the utility model discloses an installation component 1 is fixed in former's suitable position with the installation setting, and this kind of former can make the complete equipment of all kinds of thermal-insulated sound insulation metal sheet or refrigeration house board or partition board etc. because of not belonging to the utility model discloses the scope of claiming is not repeated here to the event. The metal plate, the freezer plate and the partition plate are formed by foaming of foaming materials to produce the effects of heat insulation, sound insulation or structural strength. The foaming material is commercially available in various conventional materials that can be applied to the metal plate, the freezer plate, and the partition plate, can generate the foaming expansion effect by appropriate heating, and is integrated with the metal plate, the freezer plate, and the partition plate, which is not claimed in the present invention.

Aforementioned installation component 1 and with the combination of one or more cloth component 2, and each this cloth component 2 links up with the one end of feed pipe 3, and this feed pipe 3 can be general plastic pipe or tubular metal resonator, the utility model discloses it is it to propose to use the plastic pipe, and the purpose can link up fast with cloth component 2 to the brand-new cloth component 2 of disposable quick dismantlement change and feed pipe 3. The other end of the feeding pipe 3 is fast connected to a T-shaped pipe joint or a Y-shaped pipe joint 30 made of plastic material, the T-shaped pipe joint or the Y-shaped pipe joint 30 is formed with external threads to fast screw-connect with an internal threaded hole of a foaming material nozzle 31, and the T-shaped pipe joint or the Y-shaped pipe joint 30, the feeding pipe 3 and the distributing element 2 can be fast removed, discarded and replaced with new products, so as to maintain the feeding quality of the foaming material of the forming equipment. The forming device sprays the foaming material at high pressure or low pressure through the foaming material spray head 31, the foaming material enters the feeding pipe 3 through the T-shaped pipe joint or the Y-shaped pipe joint 30, then enters the feeding element 2 through the feeding pipe 3, is distributed on one surface of the metal plate, the freezer plate and the partition plate through the discharge holes 21 a-21 f of the feeding element 2, and is heated by the heating device of the forming device to expand, so that the foaming material, the metal plate, the freezer plate and the partition plate are integrated.

As shown in fig. 1 to 11, the mounting assembly 1 at least includes a fixing element 10, two extending elements 11a, 11b and two clamping elements 12a, 12 b. The fixing element 10 is provided with a long arm 100 to be placed in the appropriate place of the forming apparatus. One end of the long arm 100 is connected to an axial end 101, the axial end 101 can be a circular body, but is not limited to this shape, the connection between the long arm 100 and the axial end 101 is through a support shaft 102 in a support shaft hole 103 formed in the long arm 100 and the axial end 101 in parallel, so that the axial end 101 can change the connection angle between the axial end 101 and the long arm 100 through the support shaft 102, and thus the spraying angle of the cloth element 2 can be changed (see fig. 6 and 7). The axial end 101 is composed of an upper element 101a and a lower element 101b, and a receiving groove 101c is formed between the upper element 101a and the lower element 101b (see fig. 2 to 7).

As shown in fig. 2, 4 and 5, the two extending elements 11a and 11b are axially disposed at the axially disposed end 101 of the fixing element 10, one ends of the two extending elements 11a and 11b are mounted in the accommodating groove 101c and do not contact with each other, and the two extending elements 11a and 11b respectively pass through the extending elements 11a and 11b from the upper element 101a of the axially disposed end 101 of the fixing element 10 by the shaft rods 110a and 110b and are then bolted to the lower element 101b, so that the two extending elements 11a and 11b can be adjusted and rotated (as shown in fig. 8 to 11).

As shown in fig. 3 to 7, the two clamping elements 12a and 12b are respectively disposed at the ends of the extension elements 11a and 11b, and the clamping elements 12a and 12b are respectively axially disposed below the ends of the extension elements 11a and 11b by a rod 120a and 120b, and the axial arrangement is completed by the shaft holes of the rod 120a and 120b and the shaft holes of the rod 11a and 11b respectively through the shaft rods 121a and 121 b. Therefore, after the cloth element 2 is mounted on the clamping element, the discharging angle of the discharging hole can be freely adjusted to match the actual use requirement (see fig. 6 and 7). The clamping bodies 122a, 122b are respectively disposed at the lower ends of the rods 120a, 120b of the clamping element, the clamping bodies 122a, 122b are respectively disposed with a clamping groove 123a, 123b (as shown in fig. 3, 6 and 7) for clamping the cloth element 2, and are fastened to the clamping bodies 122a, 122b by the manually rotatable fastening elements 124a, 124b, and the fastening elements 124a, 124b can extend into the clamping grooves 123a, 123 b. Thus, after the cloth element 2 is installed in the clamping slots 123a, 123b, the tightening elements 124a, 124b can tighten the cloth element 2 by manually rotating the tightening elements 124a, 124b to advance and retreat, so that the cloth element 2 is fixed (see fig. 3 and 7 to 11). Or to release the packing cloth member 2 so that the cloth member 2 can be taken out (see fig. 3 and 7 to 11). The cloth element 2 can be quickly mounted or dismounted by the clamping elements 12a and 12b, so as to improve the yield and quality of the forming equipment.

As shown in fig. 12 to 17, the cloth elements 2 can be connected in a plurality of groups to match the cloth range, and the present invention is explained by two groups of cloth elements 2a and 2 b. The cloth member 2 is formed by molding a plastic material and then processing. The material distributing element 2 is provided with a material inlet 20, the material inlet 20 can be quickly connected with the material supplying pipe 3, and the purpose of quick disassembly and replacement can be achieved by tightening the existing pipe bundle element. The material distributing element 2 has a first group of a plurality of discharging holes 21a, 21b, 21c, 21d, 21e, 21f (hereinafter, all are referred to as 21a to 21 f) and a second group of a plurality of discharging holes 21a to 21f, which are distributed on both sides of the material inlet 20. And then, taking the center of the feeding hole 20 as a reference, the length L of the material channel of each group of the discharging holes 21a to 21f is the longest, and the length L of the material channel of the feeding hole 20 closest to the center reference of the feeding hole 20 is sequentially decreased progressively, so that the length L of the material channel of the feeding hole 20 is the shortest, and thus, after the foaming material enters the internal flow channel 20a of the distributing element 2 through the feeding hole 20, the foaming material can be evenly distributed to the discharging holes 21a to 21f and evenly discharged, so that the surface foaming states of the metal plate, the freezer plate, the partition plate and the like are more even, and the quality is better.

As shown in fig. 12 to 17, the cloth member 2 is provided with a first connecting end 22 and a second connecting end 23, the first connecting end 22 is provided with a hole 220, and the second connecting end 23 is provided with a shaft 230. Thus, two adjacent cloth elements 2a and 2b can be disposed and joined to each other by the shaft 230 of the second joining end 23 through the corresponding hole 220 of the first joining end 22 (see fig. 15 and 16), and the adjacent cloth elements 2a and 2b can be rotated angularly by the joining of the first joining end 22 and the second joining end 23 (see fig. 9 to 11), so as to be freely adjusted and positioned in accordance with the width of the heat and sound insulating metal plate, the freezer plate, the partition material, etc. manufactured by the molding apparatus. Of course, the function of the angular rotation of the cloth elements 2a and 2b by the mutual engagement of the first engagement end 22 and the second engagement end 23 is limited to the adjustment of the horizontal angle. If the other angles of the cloth elements 2a and 2b are to be adjusted, the adjustment is achieved by the mounting assembly 1, and the structure of the angle change is the same as that described above and will not be described again.

Therefore, the utility model discloses an installation component 1 can install one or more cloth component 2 in appropriate position to can freely adjust cloth component 2's ejection of compact angle and scope, more have the quick advantage of tearing open and trade, to only can disposable cloth component, feeder sleeve, with the former of coupling, have the advantage that improves production speed and efficiency, let the utility model discloses possess the industrial utilization sexual valence, do the utility model discloses an innovation is constituteed.

The above embodiments and drawings are not intended to limit the scope or manner of usage of the present invention, and any suitable changes or modifications by those skilled in the art should be considered as not departing from the scope of the present invention.

Claims (9)

1. A material distributing device is characterized by at least comprising a mounting assembly and at least one material distributing element;

the mounting component is provided with a fixing element, the fixing element is arranged on a forming device, two sides of the fixing element are respectively pivoted with an extending element, the extending element can be adjusted and rotated, the tail end of the extending element is provided with a clamping element, and the clamping element is connected with the cloth element;

the cloth elements can be connected with a plurality of groups to match with the cloth range, so that the cloth elements can be installed at proper positions through the installation assembly, and an operator can freely adjust the discharging angle and the cloth range.

2. The material distribution device according to claim 1, wherein the mounting assembly comprises a fixing element, two extending elements and two clamping elements;

the fixing element is provided with a long arm to be arranged at a proper position of the forming equipment, one end of the long arm is provided with a shaft end, the shaft end consists of an upper element and a lower element, and a containing groove is arranged between the upper element and the lower element.

3. The distributing device according to claim 2, wherein the connection between the long arm and the pivotally-mounted end is formed by a shaft passing through a fulcrum hole formed in the long arm and the pivotally-mounted end in parallel, so that the pivotally-mounted end can change the angle of the connection between the pivotally-mounted end and the long arm through the fulcrum, thereby changing the spraying angle of the distributing element.

4. The material distribution device according to claim 2, wherein the two extension elements are pivotally mounted at the pivotally mounted ends of the fixing elements, one ends of the two extension elements are mounted in the accommodating grooves and do not contact each other, and the two extension elements respectively pass through the extension elements from the upper element at the pivotally mounted ends of the fixing elements to the lower element by a shaft rod and are fastened to the lower element, so that the two extension elements can be adjusted and rotated.

5. The material distribution device according to claim 2, wherein the two clamping elements are respectively disposed at the ends of the extension element, the clamping elements are respectively axially disposed under a rod body and the ends of the extension element, and the axial arrangement is completed by a shaft rod passing through an axial hole disposed under the ends of the extension element and an axial hole of the rod body.

6. The material distribution device according to claim 5, wherein the lower ends of the rods of the clamping elements are respectively provided with a clamping body, the clamping bodies are respectively provided with a clamping groove for the material distribution element, and are fastened to the clamping bodies through a fastening element and extend into the clamping grooves; after the cloth element is installed in the clamping groove, the tightening element can be rotated to generate a forward and backward movement effect, the tightening element can tighten the cloth element, the cloth element is fixed, and the cloth element can be rapidly disassembled and replaced through the clamping element.

7. The dispensing device of claim 1, wherein the dispensing member has a feed opening, the feed opening being adapted to be snap-engaged with the feed tube and tightened by the tube bundle member.

8. The material distribution device according to claim 7, wherein the material distribution element is configured to have a first group of discharge holes and a second group of discharge holes distributed on both sides of the material distribution element based on the material inlet, and further, based on the center of the material inlet, the length of the material channel of each group of discharge holes is longest and gradually decreased in sequence, so that the foaming material can be evenly distributed to the discharge holes to uniformly discharge after entering the internal flow channel of the material distribution element through the material inlet, thereby making the surface foaming state of the metal plate, the freezer plate, and the partition plate more uniform and making the quality better.

9. The material distribution device according to claim 5, wherein the material distribution element has a first connection end and a second connection end, the first connection end has a hole, and the second connection end has a shaft; therefore, two adjacent cloth elements can be arranged as the shaft of the second connecting end through the corresponding holes of the first connecting end and are connected and combined with each other, so that the adjacent cloth elements can generate the function of angular rotation through the mutual connection of the first connecting end and the second connecting end.

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