Automatic pushing device for salmon slices

Abstract

The utility model discloses an automatic pushing device for salmon slice relates to salmon slice technical field. The utility model discloses a base, the upper side of base is slid with a plurality of T -shaped blocks, and the rotation cooperation of push board has between two adjacent T -shaped blocks, the first sliding plate of sliding cooperation in one side of base, the upper side fixed cooperation of first sliding plate has two L -shaped boards, and the rotation cooperation of one side of L -shaped board with one side of push board has a plurality of first rotation board, and the second sliding plate of sliding cooperation in one side of base. The utility model discloses the L -shaped board is set up to make the L -shaped board under the action of first sliding plate drive L -shaped board and slide in one side of push board, and the angle adjustment of push board is driven through L -shaped board, so that the process of push board push salmon is more convenient, and the efficiency of salmon push has been improved.

Description

Technical Field

[0001] This utility model belongs to the field of salmon slicing, specifically, it relates to an automatic pushing device for salmon slicing. Background Technology

[0002] Salmon is a cold-water, highly migratory fish belonging to the family Salmonidae in the order Salmoniformes. It is also known as salmon and is considered neutral in nature. To improve the efficiency and uniformity of slicing salmon fillets, specialized fish fillet cutting machines were developed.

[0003] Patent application CN221128670U discloses an automatic pushing device for salmon slicing. Paragraph 0034 of the specification discloses that: a groove is provided inside the linear guide rail, and the internal length of the groove is equal to the product of the number of sliding shafts used multiplied by two, and then multiplied by the maximum adjustment distance of the sliding shafts. The linear guide rail is used to limit the displacement of the sliding parts along the linear direction during adjustment, so as to ensure the neatness of each main pushing plate during adjustment. It is mainly used to cooperate with the spacing adjuster to drive the sliding shaft spacing to increase or decrease, so as to prevent the sliding parts from following the linear guide rail when the passive guide rail approaches or moves away from the linear guide rail.

[0004] However, in actual use, the first articulated arm drives the sliding shaft inside the linear guide under the action of the passive guide, and adjusts the distance between two adjacent main push plates through the sliding shaft. Since there is no positioning structure between the passive guide and the linear guide, the passive guide is prone to displacement on one side of the linear guide, which in turn causes the main push plate to move.

[0005] To address these shortcomings, an automatic feeding device for salmon slicing is proposed. Utility Model Content

[0006] The technical problem to be solved by this utility model is to overcome the shortcomings of the prior art and provide an automatic pushing device for slicing salmon.

[0007] To solve the above-mentioned technical problems, the basic concept of the technical solution adopted by this utility model is as follows:

[0008] An automatic pushing device for slicing salmon includes a base, with multiple T-shaped blocks slidably fitted on the upper side of the base, and a pushing plate rotatably fitted between two adjacent T-shaped blocks;

[0009] A first sliding plate is slidably fitted on one side of the base. Two L-shaped plates are fixedly fitted on the upper side of the first sliding plate. Multiple first rotating plates are rotatably fitted between one side of the L-shaped plate and one side of the push plate.

[0010] Two second sliding plates are slidably fitted on one side of the base, and a second rotating plate is rotatably fitted between the upper side of the second sliding plate and one side of the T-shaped block.

[0011] Optionally, the upper side of the base has two T-shaped grooves, and the T-shaped block slides inside the T-shaped grooves.

[0012] Optionally, a plurality of first fixing rods are fixedly fitted on one side of the L-shaped plate, and second fixing rods are fixedly fitted on both sides of the push plate. A first through hole and a second through hole are respectively opened at both ends of the first rotating plate. The first fixing rod is located inside the first through hole, and the second fixing rod is located inside the second through hole.

[0013] Optionally, a guide hole and a guide groove are provided on one side of the T-shaped block, the bottom of the L-shaped plate is slidably fitted inside the guide groove, and rotating rods are fixedly fitted on both sides of the push plate, with the rotating rods located inside the guide hole.

[0014] Optionally, two first T-shaped grooves are provided on one side of the base, and a first T-shaped rod is rotatably fitted inside the first T-shaped groove. A first threaded rod is fixedly fitted at one end of the first T-shaped rod, and a first rotating disk is fixedly fitted at one end of the first threaded rod. Two first threaded holes are provided on one side of the first sliding plate, and the first threaded holes are threadedly fitted with the first threaded rod.

[0015] Optionally, two second T-shaped grooves are provided on both sides of the base. A second T-shaped rod is rotatably fitted inside the second T-shaped groove. A second threaded rod is fixedly fitted at one end of the second T-shaped rod. A second rotating disk is fixedly fitted at one end of the second threaded rod. Two second threaded holes are provided on one side of the second sliding plate. The second threaded holes are threadedly fitted with the second threaded rod.

[0016] Optionally, a plurality of first fixing blocks are fixedly fitted on the upper side of the second sliding plate, a third fixing rod is fixedly fitted on the upper side of the first fixing blocks, a second fixing block is fixedly fitted on one side of the T-shaped block, and a fourth fixing rod is fixedly fitted on the upper side of the second fixing blocks.

[0017] Optionally, the second rotating plate has a third through hole and a fourth through hole at its two ends, respectively, with the third fixing rod located inside the third through hole and the fourth fixing rod located inside the fourth through hole.

[0018] By adopting the above technical solution, the present invention has the following beneficial effects compared with the prior art. Of course, any product implementing the present invention does not necessarily need to achieve all of the following advantages at the same time:

[0019] The L-shaped plate is designed so that it slides on one side of the push plate under the action of the first sliding plate, and the angle of the push plate is adjusted by the L-shaped plate, making the process of pushing salmon more convenient and improving the efficiency of pushing salmon.

[0020] The guide groove is designed to allow the L-shaped plate to slide inside the guide groove under the action of the first sliding plate, and to guide the sliding direction of the first sliding plate through the guide groove, thereby reducing the problem of the first sliding plate tilting during sliding and improving the stability of the first sliding plate during sliding.

[0021] The specific embodiments of this utility model will be described in further detail below with reference to the accompanying drawings. Attached Figure Description

[0022] The accompanying drawings described below are merely some embodiments. Those skilled in the art can obtain other drawings based on these drawings without any creative effort.

[0023] In the picture:

[0024] Figure 1 This is a three-dimensional structural diagram of an embodiment of the present utility model. Figure 1 ;

[0025] Figure 2 This is a bottom view schematic diagram of an embodiment of the present invention. Figure 1 ;

[0026] Figure 3 This is a three-dimensional structural diagram of an embodiment of the present utility model. Figure 2 ;

[0027] Figure 4 This is a bottom view schematic diagram of an embodiment of the present invention. Figure 2 .

[0028] The attached diagram lists the components represented by each number as follows:

[0029] Base 100, T-slot 101, T-block 102, guide hole 103, guide groove 104, rotating rod 105, push plate 106, first T-slot 107, first T-bar 108, first threaded rod 109, first rotating disk 110, first sliding plate 111, first threaded hole 112, L-shaped plate 113, first fixing rod 114, second fixing rod 115, first rotating plate 116, first through hole 117, second through hole 118, second sliding plate 119, second T-slot 120, second T-bar 121, second threaded rod 122, second rotating disk 123, second threaded hole 124, first fixing block 125, third fixing rod 126, second fixing block 127, fourth fixing rod 128, second rotating plate 129, third through hole 130, fourth through hole 131.

[0030] It should be noted that these accompanying drawings and textual descriptions are not intended to limit the scope of the present invention in any way, but rather to illustrate the concept of the present invention to those skilled in the art by referring to specific embodiments. Detailed Implementation

[0031] The present invention will now be described in further detail with reference to the accompanying drawings.

[0032] Please see Figure 1-4 As shown, this embodiment provides an automatic pushing device for salmon slicing, including a base 100, a plurality of T-shaped blocks 102 are slidably fitted on the upper side of the base 100, and a pushing plate 106 is rotatably fitted between two adjacent T-shaped blocks 102.

[0033] A first sliding plate 111 is slidably fitted on one side of the base 100. Two L-shaped plates 113 are fixedly fitted on the upper side of the first sliding plate 111. Multiple first rotating plates 116 are rotatably fitted between one side of the L-shaped plate 113 and one side of the push plate 106.

[0034] Two second sliding plates 119 are slidably fitted on one side of the base 100, and a second rotating plate 129 is rotatably fitted between the upper side of the second sliding plate 119 and one side of the T-shaped block 102.

[0035] Working principle:

[0036] First, place the salmon on one side of the push plate 106, then slide the second sliding plate 119. The second sliding plate 119 drives the T-shaped block 102 to slide inside the base 100 through the second rotating plate 129. The T-shaped block 102 drives the push plate 106 to slide on the upper side of the base 100. Then slide the first sliding plate 111. The first sliding plate 111 drives the L-shaped plate 113 to slide. The L-shaped plate 113 drives the push plate 106 to adjust its angle, and the push plate 106 drives the salmon to move, thus completing the pushing of the salmon.

[0037] The L-shaped plate 113 is designed so that the L-shaped plate 113 is driven to slide on one side of the push plate 106 under the action of the first sliding plate 111, and the angle of the push plate 106 is adjusted by the L-shaped plate 113, making the process of the push plate 106 pushing salmon more convenient and improving the efficiency of pushing salmon.

[0038] To make the sliding process of the first T-shaped rod 108 on one side of the base 100 more stable in this embodiment, the following structure is used for improvement, such as... Figure 1-4 As shown, in this embodiment, the upper side of the base 100 has two T-shaped grooves 101, and the T-shaped block 102 is slidably fitted inside the T-shaped grooves 101. Multiple first fixing rods 114 are fixedly fitted to one side of the L-shaped plate 113, and second fixing rods 115 are fixedly fitted to both sides of the push plate 106. The two ends of the first rotating plate 116 are respectively provided with a first through hole 117 and a second through hole 118. The first fixing rods 114 are located inside the first through hole 117, and the second fixing rods 115 are located inside the second through hole 118. One side of the T-shaped block 102... The base 100 has a guide hole 103 and a guide groove 104. The bottom of the L-shaped plate 113 is slidably fitted inside the guide groove 104. Rotating rods 105 are fixedly fitted on both sides of the push plate 106, with the rotating rods 105 located inside the guide hole 103. Two first T-shaped grooves 107 are formed on one side of the base 100. A first T-shaped rod 108 is rotatably fitted inside the first T-shaped groove 107. A first threaded rod 109 is fixedly fitted to one end of the first T-shaped rod 108, and a first rotating disk 110 is fixedly fitted to one end of the first threaded rod 109. The first sliding... Two first threaded holes 112 are provided on one side of the moving plate 111. The first threaded holes 112 are threadedly engaged with the first threaded rod 109. Two second T-shaped grooves 120 are provided on both sides of the base 100. A second T-shaped rod 121 is rotatably engaged inside the second T-shaped groove 120. A second threaded rod 122 is fixedly engaged at one end of the second T-shaped rod 121. A second rotating disk 123 is fixedly engaged at one end of the second threaded rod 122. Two second threaded holes 124 are provided on one side of the second sliding plate 119. The second threaded holes 124 are threaded with the second threaded rod. The second sliding plate 119 is threaded together with a plurality of first fixing blocks 125 fixedly fitted on the upper side. A third fixing rod 126 is fixedly fitted on the upper side of the first fixing block 125. A second fixing block 127 is fixedly fitted on one side of the T-shaped block 102. A fourth fixing rod 128 is fixedly fitted on the upper side of the second fixing block 127. A third through hole 130 and a fourth through hole 131 are respectively opened at both ends of the second rotating plate 129. The third fixing rod 126 is located inside the third through hole 130, and the fourth fixing rod 128 is located inside the fourth through hole 131.

[0039] In this embodiment, the first rotating disk 110 is rotated first. The first rotating disk 110 drives the first T-shaped rod 108 to rotate inside the first T-shaped groove 107 via the first threaded rod 109. The first threaded rod 109 drives the L-shaped plate 113 to slide inside the guide groove 104. The L-shaped plate 113 drives the push plate 106 to rotate via the first rotating plate 116, and adjusts the angle of the push plate 106. The push plate 106 drives the rotating rod 105 to rotate inside the guide hole 103, thereby completing the adjustment of the angle of the push plate 106, and pushing the salmon through the push plate 106.

[0040] The guide groove 104 is provided so that the L-shaped plate 113 slides inside the guide groove 104 under the action of the first sliding plate 111, and guides the sliding direction of the first sliding plate 111 through the guide groove 104, reducing the problem of the first sliding plate 111 tilting during sliding and improving the stability of the first sliding plate 111 during sliding.

[0041] This utility model is not limited to the above-described embodiments. Anyone should know that structural changes made under the guidance of this utility model, and any technical solutions that are the same as or similar to this utility model, fall within the protection scope of this utility model. Technical aspects, shapes, and structures not described in detail in this utility model are all publicly known technologies.

Claims

1. An automatic feeding device for slicing salmon, characterized in that, include: A base (100) has multiple T-shaped blocks (102) slidably fitted on its upper side, and a push plate (106) is rotatably fitted between two adjacent T-shaped blocks (102). A first sliding plate (111) is slidably fitted on one side of the base (100). Two L-shaped plates (113) are fixedly fitted on the upper side of the first sliding plate (111). A plurality of first rotating plates (116) are rotatably fitted between one side of the L-shaped plate (113) and one side of the push plate (106). Two second sliding plates (119) are slidably fitted on one side of the base (100), and a second rotating plate (129) is rotatably fitted between the upper side of the second sliding plate (119) and one side of the T-shaped block (102).

2. The automatic feeding device for slicing salmon according to claim 1, characterized in that, The base (100) has two T-shaped grooves (101) on its upper side, and the T-shaped block (102) slides inside the T-shaped grooves (101).

3. The automatic feeding device for slicing salmon according to claim 1, characterized in that, A plurality of first fixing rods (114) are fixedly fitted on one side of the L-shaped plate (113), and a second fixing rod (115) is fixedly fitted on both sides of the push plate (106). A first through hole (117) and a second through hole (118) are respectively opened at both ends of the first rotating plate (116). The first fixing rod (114) is located inside the first through hole (117), and the second fixing rod (115) is located inside the second through hole (118).

4. The automatic feeding device for slicing salmon according to claim 1, characterized in that, The T-shaped block (102) has a guide hole (103) and a guide groove (104) on one side. The bottom of the L-shaped plate (113) is slidably fitted inside the guide groove (104). The push plate (106) has a rotating rod (105) fixedly fitted on both sides. The rotating rod (105) is located inside the guide hole (103).

5. The automatic feeding device for slicing salmon according to claim 1, characterized in that, Two first T-shaped grooves (107) are provided on one side of the base (100). A first T-shaped rod (108) is rotatably fitted inside the first T-shaped groove (107). A first threaded rod (109) is fixedly fitted at one end of the first T-shaped rod (108). A first rotating disk (110) is fixedly fitted at one end of the first threaded rod (109). Two first threaded holes (112) are provided on one side of the first sliding plate (111). The first threaded holes (112) are threadedly fitted with the first threaded rod (109).

6. The automatic feeding device for slicing salmon according to claim 1, characterized in that, Two second T-shaped grooves (120) are provided on both sides of the base (100). A second T-shaped rod (121) is rotatably fitted inside the second T-shaped groove (120). A second threaded rod (122) is fixedly fitted at one end of the second T-shaped rod (121). A second rotating disk (123) is fixedly fitted at one end of the second threaded rod (122). Two second threaded holes (124) are provided on one side of the second sliding plate (119). The second threaded holes (124) are threadedly fitted with the second threaded rod (122).

7. The automatic feeding device for slicing salmon according to claim 1, characterized in that, The upper side of the second sliding plate (119) is fixedly fitted with a plurality of first fixing blocks (125), the upper side of the first fixing blocks (125) is fixedly fitted with a third fixing rod (126), one side of the T-shaped block (102) is fixedly fitted with a second fixing block (127), and the upper side of the second fixing block (127) is fixedly fitted with a fourth fixing rod (128).

8. The automatic feeding device for slicing salmon according to claim 7, characterized in that, The second rotating plate (129) has a third through hole (130) and a fourth through hole (131) at its two ends respectively. The third fixing rod (126) is located inside the third through hole (130), and the fourth fixing rod (128) is located inside the fourth through hole (131).

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