CN215224420U - Australia lobster slaughtering line - Google Patents

Abstract

The utility model relates to a Australia lobster slaughtering line, which comprises a frame and two transmission lines which are arranged in the frame and are superposed up and down; the device also comprises a first shunt assembly and a second shunt assembly; the first diversion assembly is arranged on a conveying line above the first diversion assembly, a plurality of supporting blocks which are transversely distributed in sequence are fixed on the front side and the rear side of the rack, and a water inlet pipe which is transversely distributed is fixed between the plurality of supporting blocks on the front side and between the plurality of supporting blocks on the rear side; the utility model discloses concentrate operating personnel simultaneous operation together, the automatic transport of australia lobster meat after slaughtering and collecting, and then simplified the operating procedure and made the operation process go on in succession in order to improve work efficiency, the australia lobster remains that produces after slaughtering also can automatic transport and collect in order to reach labour saving and time saving's effect.

Description

Australia lobster slaughtering line

Technical Field

The utility model relates to a line is slaughtered to australia lobster.

Background

In recent years, Australian lobsters enter dining tables of people more and more generally, the Australian lobsters must be slaughtered and cleaned before being eaten, the existing Australian lobsters are mainly carried out by operating personnel in a scattered mode during slaughtering, the slaughtered Australian lobsters are temporarily stored in a container and then collected in a unified mode, the operating process is intermittent, the operating steps are complex, the working efficiency is low, the remains of the Australian lobsters generated after slaughtering must be collected and removed by manpower, time and labor are wasted, and further improvement is needed.

SUMMERY OF THE UTILITY MODEL

To the current situation of above-mentioned prior art, the utility model aims to solve the technical problem that an operating procedure has been simplified and make the operation process go on in succession in order to improve work efficiency is provided to reach the Australian lobster slaughtering line of labour saving and time saving effect.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: the Australian lobster slaughtering line comprises a rack and two conveying lines which are arranged in the rack and are stacked up and down, and is characterized by further comprising a first shunt assembly and a second shunt assembly; the first shunt assembly is arranged on an upper conveying line, the second shunt assembly is arranged on a lower conveying line, and the first shunt assembly comprises a first supporting plate, a first barrier strip, a U-shaped barrier cover, a first support frame and a first partition strip; the first supporting plates are all fixed in the rack and are sequentially arranged inside a conveying belt of an upper conveying line from left to right, a first barrier strip is fixed between the front ends of the first supporting plates and between the rear ends of the first supporting plates, the two first barrier strips are respectively arranged on the edges of the front side and the rear side of the conveying line, the U-shaped barrier covers are fixed between the right ends of the two first barrier strips and are positioned above the upper conveying line, the first supporting frames comprise a plurality of first supporting frames, the first supporting frames are all fixed between the two first barrier strips and are sequentially arranged from left to right, the first separating strips comprise two first separating strips, and the two first separating strips are all fixed between the first supporting frames and are symmetrically arranged above the upper conveying line in parallel; the second flow dividing assembly comprises a second supporting plate, a second barrier strip, a second supporting frame, a second separating strip, a supporting arm, a first groove body, a second groove body and a short pipe; the second supporting plates are fixed in the rack and are sequentially arranged inside a conveying belt of a conveying line below from left to right, a second barrier strip is fixed between the front ends of the second supporting plates and between the rear ends of the second supporting plates, the two second barrier strips are respectively arranged on the edges of the front side and the rear side of the conveying line below, the second supporting frames comprise a plurality of second supporting frames, the second supporting frames are fixed between the two second supporting frames and are sequentially arranged from left to right, the second partition strips comprise two second partition strips, the two second partition strips are fixed between the second supporting frames and are symmetrically arranged above the conveying line below in parallel, and three flow channels are formed above the conveying line below by the two second partition strips; the first groove bodies comprise two, the two first groove bodies are respectively obliquely arranged on the front side and the rear side of a conveying line below and symmetrically distributed, each first groove body is fixed outside the rack through a plurality of supporting arms, the second groove body is obliquely arranged below the lower end opening of the two first groove bodies, and a short pipe is further inserted into the higher end of each first groove body.

Preferably, a plurality of supporting blocks which are transversely distributed in sequence are fixed on the front side and the rear side of the rack, a water inlet pipe which is transversely distributed is fixed between the plurality of supporting blocks on the front side and between the plurality of supporting blocks on the rear side, and a plurality of water valves are arranged on each water inlet pipe; and one end of each of the two water inlet pipes is sealed.

Preferably, a first separating hopper, a second separating hopper and a third separating hopper are arranged below each water valve, the first separating hopper, the second separating hopper and the third separating hopper are detachably fixed on the rack from left to right in sequence, and bottom openings of the first separating hopper, the second separating hopper and the third separating hopper are respectively arranged above the three flow channels.

Preferably, a V-shaped strip is further fixed between the right ends of the two first parting strips.

Compared with the prior art, the utility model has the advantages of: the utility model discloses concentrate operating personnel simultaneous operation together, the automatic transport of australia lobster meat after slaughtering and collecting, and then simplified the operating procedure and made the operation process go on in succession in order to improve work efficiency, the australia lobster remains that produces after slaughtering also can automatic transport and collect in order to reach labour saving and time saving's effect.

Drawings

Fig. 1 is a left front side structure diagram of the present invention.

Detailed Description

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by those of ordinary skill in the art to which the invention belongs. The use of "first," "second," and similar terms in the description herein do not denote any order, quantity, or importance, but rather the terms are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

To maintain the following description of the embodiments of the present invention clear and concise, detailed descriptions of well-known functions and components may be omitted.

As shown in fig. 1, the Australia lobster slaughtering line comprises a rack 1 and two conveying lines 2 which are arranged in the rack 1 and are overlapped up and down; the device also comprises a first shunt assembly and a second shunt assembly; the first shunt assembly is arranged on one upper conveying line 2, the second shunt assembly is arranged on one lower conveying line 2, and the first shunt assembly comprises a first supporting plate 3, a first baffle strip 4, a U-shaped baffle cover 5, a first support frame 6 and a first parting strip 7; the first supporting plates 3 comprise a plurality of first supporting plates 3, the first supporting plates 3 are all fixed in the rack 1 and are sequentially arranged inside a conveying belt of an upper conveying line 2 from left to right, a first barrier strip 4 is fixed between the front ends of the first supporting plates 3 and between the rear ends of the first supporting plates 3, the two first barrier strips 4 are respectively arranged on the edges of the front side and the rear side of the conveying line 2, the U-shaped barrier covers 5 are fixed between the right ends of the two first barrier strips 4 and are positioned above the upper conveying line 2, the first supporting frames 6 comprise a plurality of first supporting frames 6, the first supporting frames 6 are all fixed between the two first barrier strips 4 and are sequentially arranged from left to right, the first separating strips 7 comprise two first separating strips 7, and the two first separating strips 7 are all fixed between the first supporting frames 6 and are symmetrically arranged above the upper conveying line 2 in parallel; the second flow dividing assembly comprises a second supporting plate 8, a second stop strip 9, a second support frame 20, a second separating strip 21, a supporting arm 10, a first groove body 11, a second groove body 12 and a short pipe 13; the second supporting plates 8 comprise a plurality of second supporting plates 8, the plurality of second supporting plates 8 are all fixed in the rack 1 and are sequentially arranged inside the conveying belt of one conveying line 2 below from left to right, a second blocking strip 9 is fixed between the front ends of the plurality of second supporting plates 8 and between the rear ends of the plurality of second supporting plates 8, the two second blocking strips 9 are respectively arranged on the edges of the front side and the rear side of one conveying line 2 below, the plurality of second supporting frames 20 comprise a plurality of second supporting frames 20, the plurality of second supporting frames 20 are all fixed between the two second blocking strips 9 and are sequentially arranged from left to right, the second separating strips 21 comprise two second separating strips 21, the two second separating strips 21 are all fixed between the plurality of second supporting frames 20 and are symmetrically arranged above one conveying line 2 below in parallel, and the two second separating strips 21 form three flow channels 201 above one conveying line 2 below; the first trough bodies 11 comprise two first trough bodies 11, the two first trough bodies 11 are respectively obliquely arranged on the front side and the rear side of a conveying line 2 below the conveying line and symmetrically distributed, each first trough body 11 is fixed outside the rack 1 through a plurality of supporting arms 10, the second trough body 12 is obliquely arranged below the lower end opening of the two first trough bodies 11, and a short pipe 13 is further inserted into the higher end of each first trough body 11.

A plurality of supporting blocks 22 which are transversely distributed in sequence are fixed on the front side and the rear side of the rack 1, a water inlet pipe 14 which is transversely distributed is fixed between the supporting blocks 22 on the front side and between the supporting blocks 22 on the rear side, and a plurality of water valves 16 are arranged on each water inlet pipe 14; both inlet conduits 14 are closed at one end.

A first separating hopper 17, a second separating hopper 18 and a third separating hopper 19 are further arranged below each water valve 16, the first separating hopper 17, the second separating hopper 18 and the third separating hopper 19 are sequentially detachably fixed on the frame 1 from left to right, and bottom openings of the first separating hopper 17, the second separating hopper 18 and the third separating hopper 19 are respectively arranged above the three flow channels 201.

A V-shaped strip 23 is fixed between the right ends of the two first parting strips 7.

When in use, the other ends of the two water inlet pipes 14 are connected in parallel and then connected into the water main 15, and an operator is arranged at each water valve 16, the first separating hopper 17, the second separating hopper 18 and the third separating hopper 19; the unprocessed lobsters are poured into the U-shaped shield 5 and fall onto an upper one of the conveyor lines 2, and are moved to the left by the conveyor lines 2, thereby passing each of the operators in turn along the outer sides of the two first separating bars 7 by the V-shaped bars 23.

An operator manually grabs lobsters and carries out manual slaughtering, after the slaughtering is finished, the water valve 16 is opened to wash the lobsters, the washed lobster meat is placed into the first groove body 11, the lobster carcasses are dispersedly placed into the first separating hopper 17, the second separating hopper 18 and the third separating hopper 19, and the lobster carcasses coming out of the first separating hopper 17, the second separating hopper 18 and the third separating hopper 19 respectively enter the three flow channels 201 and are conveyed leftwards under the driving of one conveying line 2 below in a unified mode to be collected.

A small amount of water is continuously introduced into the upper end of the first tank body 11 through the short pipe 13, so that the lobster meat moves into the second tank body 12 along the flow direction of the water and finally moves along the inclined direction of the second tank body 12 to be collected uniformly.

The utility model discloses concentrate operating personnel simultaneous operation together, the automatic transport of australia lobster meat after slaughtering and collecting, and then simplified the operating procedure and made the operation process go on in succession in order to improve work efficiency, the australia lobster remains that produces after slaughtering also can automatic transport and collect in order to reach labour saving and time saving's effect.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that various changes in the embodiments and modifications thereof may be made, and equivalents may be substituted for elements thereof; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (4)

1. The Australian lobster slaughtering line comprises a rack and two conveying lines which are arranged in the rack and are stacked up and down, and is characterized by further comprising a first shunt assembly and a second shunt assembly; the first shunt assembly is arranged on an upper conveying line, the second shunt assembly is arranged on a lower conveying line, and the first shunt assembly comprises a first supporting plate, a first barrier strip, a U-shaped barrier cover, a first support frame and a first partition strip; the first supporting plates are all fixed in the rack and are sequentially arranged inside a conveying belt of an upper conveying line from left to right, a first barrier strip is fixed between the front ends of the first supporting plates and between the rear ends of the first supporting plates, the two first barrier strips are respectively arranged on the edges of the front side and the rear side of the conveying line, the U-shaped barrier covers are fixed between the right ends of the two first barrier strips and are positioned above the upper conveying line, the first supporting frames comprise a plurality of first supporting frames, the first supporting frames are all fixed between the two first barrier strips and are sequentially arranged from left to right, the first separating strips comprise two first separating strips, and the two first separating strips are all fixed between the first supporting frames and are symmetrically arranged above the upper conveying line in parallel; the second flow dividing assembly comprises a second supporting plate, a second barrier strip, a second supporting frame, a second separating strip, a supporting arm, a first groove body, a second groove body and a short pipe; the second supporting plates are fixed in the rack and are sequentially arranged inside a conveying belt of a conveying line below from left to right, a second barrier strip is fixed between the front ends of the second supporting plates and between the rear ends of the second supporting plates, the two second barrier strips are respectively arranged on the edges of the front side and the rear side of the conveying line below, the second supporting frames comprise a plurality of second supporting frames, the second supporting frames are fixed between the two second supporting frames and are sequentially arranged from left to right, the second partition strips comprise two second partition strips, the two second partition strips are fixed between the second supporting frames and are symmetrically arranged above the conveying line below in parallel, and three flow channels are formed above the conveying line below by the two second partition strips; the first groove bodies comprise two, the two first groove bodies are respectively obliquely arranged on the front side and the rear side of a conveying line below and symmetrically distributed, each first groove body is fixed outside the rack through a plurality of supporting arms, the second groove body is obliquely arranged below the lower end opening of the two first groove bodies, and a short pipe is further inserted into the higher end of each first groove body.

2. The Australian lobster slaughtering line according to claim 1, characterized in that a plurality of supporting blocks which are transversely distributed in sequence are fixed on the front side and the rear side of the rack, a water inlet pipe which is transversely distributed is fixed between the plurality of supporting blocks on the front side and between the plurality of supporting blocks on the rear side, and each water inlet pipe is provided with a plurality of water valves; and one end of each of the two water inlet pipes is sealed.

3. The Australian lobster slaughtering line according to claim 2, wherein a first separating bucket, a second separating bucket and a third separating bucket are arranged below each water valve, the first separating bucket, the second separating bucket and the third separating bucket are detachably fixed on the rack from left to right in sequence, and bottom openings of the first separating bucket, the second separating bucket and the third separating bucket are respectively arranged above the three flow channels.

4. The Australian lobster slaughtering line according to claim 1, characterized in that a V-shaped strip is further fixed between the right ends of the two first separation strips.

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