CN112205451B

CN112205451B - Horizontal type fish scale removing device

Info

Publication number: CN112205451B
Application number: CN202011286752.0A
Authority: CN
Inventors: 李�浩; 张鹏
Original assignee: Lixin Ziheng Food Processing Factory
Current assignee: Lixin Ziheng Food Processing Factory
Priority date: 2020-11-17
Filing date: 2020-11-17
Publication date: 2021-10-29
Anticipated expiration: 2040-11-17
Also published as: CN112205451A

Abstract

The invention discloses a horizontal type fish scale removing device, which relates to the technical field of food processing and comprises a processing table, a fish scale removing mechanism and a holding mechanism, wherein a collecting tank for collecting fish scales is arranged at the top end of the processing table, a supporting plate is arranged between two sides of the top end in the collecting tank, the fish scale removing mechanism is arranged at the top end of the processing table, and the holding mechanism is positioned on the right side of the fish scale removing mechanism and is in sliding connection with the supporting plate. The invention relates to a horizontal type fish scale removing device, which utilizes a scale removing mechanism to scrape fish scales, replaces manpower, does not need to invest a large amount of manpower, reduces the production and processing cost, can carry out batch production operation, has high working efficiency, is convenient to convey fish to be descaled to the scale removing mechanism by arranging a holding mechanism, and avoids the influence of manual holding and slipping on the rapid descaling operation of the scale removing mechanism.

Description

Horizontal type fish scale removing device

Technical Field

The invention relates to the technical field of food processing, in particular to a horizontal type fish scale removing device.

Background

At present, in the food processing industry, fish descaling operation is also included, most of fish scale removing methods adopt a manual descaling mode, the manual descaling is usually carried out by means of a cutter or a fish scale plane, mucus secreted by the fish per se causes extreme slip, the manual descaling operation is inconvenient to control and operate, the method is low in working efficiency, high in labor intensity, high in production and processing cost and incapable of meeting the development requirements of the food processing industry, and therefore a horizontal type fish descaling device is designed to solve the problems.

Disclosure of Invention

The invention aims to provide a horizontal type fish scale removing device to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the horizontal type fish scale removing device comprises a processing table, a scale removing mechanism and a holding mechanism, wherein a collecting tank used for collecting fish scales is arranged at the top end of the processing table, the collecting tank is used for collecting the fish scales and is convenient to perform centralized processing, a supporting plate is arranged between two sides of the top end of the inside of the collecting tank, the scale removing mechanism is arranged at the top end of the processing table, the scale removing mechanism is used for scraping the fish scales and replaces manpower, a large amount of manpower is not needed, the cost of production and processing is reduced, batch production operation can be performed, the working efficiency is high, the holding mechanism is located on the right side of the scale removing mechanism and is in sliding connection with the supporting plate, auxiliary conveying of fish to be descaled is facilitated through the holding mechanism, and quick descaling operation of the scale removing mechanism is prevented from being influenced by manual holding and oversliding.

In a further embodiment, the descaling mechanism comprises a first portal frame, a driving motor, a first transmission sleeve and a second transmission sleeve, the first portal frame is fixedly installed between the front side and the rear side of the top end of the processing table, a transmission cavity is arranged inside the first portal frame, the driving motor is fixedly arranged on the upper end face of the first portal frame, the driving motor rotates through a power shaft and extends to the top end inside the transmission cavity and is connected with the top end of the first transmission sleeve, the bottom end of the first transmission sleeve rotatably penetrates through the transmission cavity and extends to the lower side of the first portal frame, the driving motor can drive the first transmission sleeve to rotate, the top end of the second transmission sleeve rotatably plugs with the top end face inside the transmission cavity, the bottom end of the second transmission sleeve rotatably penetrates through the transmission cavity and extends to the lower side of the first portal frame, the first transmission sleeve is fixedly sleeved with a first transmission fluted disc inside the transmission cavity, the second transmission sleeve is fixedly sleeved with a second transmission fluted disc positioned inside the transmission cavity, the second transmission fluted disc is meshed with the first transmission fluted disc, and the second transmission fluted disc is meshed with the first transmission fluted disc, so that when the first transmission sleeve rotates, the second transmission sleeve can be driven to synchronously rotate.

In a further embodiment, the descaling mechanism further comprises two rectangular transmission blocks, two transmission flexible shafts and two cylindrical descaling brushes, the bottom ends of the first transmission sleeve and the second transmission sleeve are both upwards provided with buffer grooves, the upward cross sections of the buffer grooves are of rectangular structures, the rectangular transmission blocks are slidably clamped in the buffer grooves, the transmission flexible shafts extend into the buffer grooves and are connected with the bottom end faces of the rectangular transmission blocks, the upward cross sections of the rotating buffer grooves are of rectangular structures, so that the rectangular transmission blocks can be slidably adjusted up and down in the buffer grooves, the descaling gap between the two transmission flexible shafts can be timely adjusted according to different fish body types, the fish bodies can be clamped in real time by the transmission flexible shafts, descaling operation can be carried out, but when the first transmission sleeve and the second transmission sleeve rotate, the rectangular transmission blocks can be driven to synchronously rotate, the driving flexible shaft is connected with the rectangular driving block in a sliding and sleeved mode, the first spring located inside the buffer groove is sleeved with the driving flexible shaft in a sliding mode, the cylindrical descaling brush is fixedly sleeved outside the driving flexible shaft and can rotate synchronously along with the driving flexible shaft to descale, the rectangular driving block is jacked upwards in real time by the aid of the first spring, the driving flexible shaft can slide upwards along the inside of the buffer groove, the two driving flexible shafts are enabled to move towards each other in real time, and accordingly fish bodies can be clamped conveniently in real time, and the auxiliary descaling mechanism can conduct effective descaling operation.

In a further embodiment, the bottom of transmission flexible axle all rotates and is equipped with the spacing post that the main cross-section is handstand T type structure, the handstand T type spout that distributes around the up end of backup pad is seted up, two just right around the spacing post, and equal slip joint is in the inside of handstand T type spout, two spacing post is magnet, and relative lateral wall magnetic pole is different to the opposite side, through setting up two spacing posts that the magnetic pole is different to two spacing posts for two spacing posts have the adsorption affinity of the laminating of one side that is close to each other, can draw together two outer cylindric descales of transmission flexible axle brushes in real time like this, thereby be convenient for press from both sides tight fish body in real time, the supplementary descaler of being convenient for constructs effectively the operation of descaling.

In a further embodiment, the holding mechanism comprises a second portal frame, a connecting column, a rectangular handle, a T-shaped ejector rod and a plugging ejector rod, the bottom end opposite side wall of the second portal frame is provided with a slider, the front side and the rear side of the supporting plate are respectively provided with a rectangular chute which is in sliding clamping connection with the slider, the inside opposite side wall of the second portal frame is provided with a rectangular guide chute, the two axial ends of the connecting column are respectively provided with a pin shaft which is in sliding clamping connection with the inside of the rectangular guide chute, the rectangular handle and the plugging ejector rod are symmetrically arranged on the radial side wall of the connecting column, mutually communicated drawing grooves are arranged between the rectangular handle, the plugging ejector rod and the connecting column, the tip end of the T-shaped ejector rod penetrates through one end of the rectangular handle far away from the connecting column and extends to the inside of the drawing grooves, and the T-shaped ejector rod can be drawn randomly along the inside of the drawing grooves, the rectangular handle can be held by bare hands to rotate around the pin shafts at the two axial ends of the connecting column in the rectangular guide chute, so that the inserting ejector rod can be conveniently lifted, the tip end of the inserting ejector rod can be inserted into a fish mouth, and in the descaling process, the second portal frame is pushed to slide to one side of the descaling mechanism along the rectangular chute, so that the fish to be descaled can be held in an auxiliary manner and conveyed to the descaling mechanism for descaling operation;

in addition, the pin shaft can slide up and down in the rectangular guide sliding groove, so that the overall height of the whole holding mechanism can be freely adjusted, and the fish scale removing mechanism is convenient for fish of different body types to carry out scale removing operation.

In a further embodiment, two symmetrically distributed accommodating grooves which are communicated with the inside of the drawing groove are formed in the radial side wall of one end, away from the connecting column, of the inserting ejector rod, a first support rod is hinged to one end, away from the connecting column, of the accommodating groove, a second support rod is hinged to the tip end of the first support rod, the tip end of the second support rod extends to the inside of the drawing groove and is hinged to the side wall of the tip end of the T-shaped ejector rod, the T-shaped ejector rod can be drawn and pulled randomly along the inside of the drawing groove, so that when the T-shaped ejector rod extends out of the drawing groove, the second support rod can slide along the inside of the accommodating groove, the second support rod is hinged to the first support rod, and along with the adjustment of the second support rod, the first support rod rotates correspondingly, so that the second support rod and the first support rod are finally in a V-shaped structure and are supported in the fish mouth to prevent the inserting ejector rod from being separated from the fish mouth, the operation of positioning and conveying the fish by the holding mechanism is influenced;

in a further embodiment, the sum of the lengths of the first support rod and the second support rod is three-quarters of the length of the inner part of the accommodating groove, so that the first support rod and the second support rod are accommodated in the accommodating groove in a sufficient length, the operation of separating the inserting push rod from the fish mouth is not affected, and the fish after being descaled can be taken down conveniently.

In a further embodiment, the outer wall of the T-shaped ejector rod is slidably adjusted to be provided with a second spring connected with the radial side wall of the connecting column, the outer wall of the T-shaped ejector rod is slidably sleeved with a wide-mouth positioning cover connected with the second spring, the wide-mouth positioning cover is jacked up to the tip end of the T-shaped ejector rod in real time by the second spring, and therefore after the inserting ejector rod is inserted into the fish mouth, the wide-mouth positioning cover is used for covering the fish mouth, the holding stability is further enhanced, and the phenomenon that the fish body shakes disorderly can not occur.

Compared with the prior art, the invention has the beneficial effects that:

the invention relates to a horizontal type fish scale removing device, which utilizes a scale removing mechanism to scrape fish scales, replaces manpower, does not need to invest a large amount of manpower, reduces the production and processing cost, can carry out batch production operation, has high working efficiency, is convenient to convey fish to be descaled to the scale removing mechanism by arranging a holding mechanism, and avoids the influence of manual holding and slipping on the rapid descaling operation of the scale removing mechanism.

Drawings

FIG. 1 is an exploded view of the main structure of the present invention;

FIG. 2 is a partial cross-sectional view of the descaling mechanism of the present invention;

FIG. 3 is an enlarged view of the structure of FIG. 1 at A in accordance with the present invention;

fig. 4 is an enlarged view of the structure at B in fig. 1 according to the present invention.

In the figure: 1. a processing table; 2. a support plate; 21. a rectangular chute; 22. an inverted T-shaped chute; 3. a desquamation mechanism; 31. a first gantry; 32. a drive motor; 33. a flexible transmission shaft; 34. a cylindrical descaling brush; 35. a transmission cavity; 36. a first transmission sleeve; 37. a second drive sleeve; 38. a rectangular transmission block; 39. a first spring; 310. a first transmission fluted disc; 311. a second transmission fluted disc; 312. a limiting column; 4. a holding mechanism; 41. a second gantry; 42. a rectangular guide chute; 43. connecting columns; 44. a pin shaft; 45. a rectangular grip; 46. a T-shaped ejector rod; 47. a slider; 48. inserting a mandril; 49. a receiving groove; 410. drawing the groove; 411. a first stay bar; 412. a second stay bar; 413. a wide-mouth positioning cover; 414. a second spring.

Detailed Description

The embodiment of the application solves the problems in the prior art by providing the horizontal type fish scale removing device; the following will clearly and completely describe the technical solutions in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

Referring to fig. 1-4, the present embodiment provides a horizontal fish scale removing device, which includes a processing table 1, a scale removing mechanism 3 and a holding mechanism 4, wherein a collecting tank for collecting fish scales is disposed at the top end of the processing table 1, the collecting tank is used for collecting fish scales and is convenient for centralized processing, a supporting plate 2 is disposed between two sides of the top end of the collecting tank,

in order to solve the problems of separation and transmission, the descaling mechanism 3 is arranged at the top end of the processing table 1, the descaling mechanism 3 is used for scraping fish scales to replace manpower, a large amount of manpower is not needed, the cost of production and processing is reduced, batch production operation can be carried out, the working efficiency is high, the holding mechanism 4 is positioned on the right side of the descaling mechanism 3 and is in sliding connection with the supporting plate 2, the fish to be descaled can be conveniently conveyed to the descaling mechanism 3 through the holding mechanism 4, and the situation that the manual hand holds the fish to be descaled to slide to influence the rapid descaling operation of the descaling mechanism 3 is avoided.

In order to solve the problem of how to assist the descaling mechanism 3 to effectively descale, the descaling mechanism 3 comprises a first portal frame 31, a driving motor 32, a first transmission sleeve 36 and a second transmission sleeve 37, wherein the first portal frame 31 is fixedly arranged between the front side and the rear side of the top end of the processing table 1, a transmission cavity 35 is arranged inside the first portal frame 31, the driving motor 32 is fixedly arranged on the upper end surface of the first portal frame 31, the driving motor 32 extends to the top end inside the transmission cavity 35 through a power shaft in a rotating manner and is connected with the top end of the first transmission sleeve 36, the bottom end of the first transmission sleeve 36 penetrates through the transmission cavity 35 in a rotating manner and extends to the lower side of the first portal frame 31, the driving motor 32 can drive the first transmission sleeve 36 to rotate, the top end of the second transmission sleeve 37 is rotatably inserted into the top end surface inside the transmission cavity 35, and the bottom end of the second transmission sleeve 37 penetrates through the transmission cavity 35 in a rotating manner, and extend to the lower part of the first portal frame 31, the first transmission sleeve 36 is fixedly sleeved with a first transmission fluted disc 310 located inside the transmission cavity 35, the second transmission sleeve 37 is fixedly sleeved with a second transmission fluted disc 311 located inside the transmission cavity 35, the second transmission fluted disc 311 is meshed with the first transmission fluted disc 310, and the second transmission fluted disc 311 is meshed with the first transmission fluted disc 310 through the second transmission fluted disc 311, so that when the first transmission sleeve 36 rotates, the second transmission sleeve 37 can be driven to synchronously rotate.

In order to solve the problem of how to assist in clamping the fish body, the descaling mechanism 3 further comprises two rectangular transmission blocks 38, two transmission flexible shafts 33 and two cylindrical descaling brushes 34, the bottom ends of the first transmission sleeve 36 and the second transmission sleeve 37 are both upwards provided with buffer grooves, the upward cross sections of the buffer grooves are of rectangular structures, the rectangular transmission blocks 38 are slidably clamped inside the buffer grooves, the transmission flexible shafts 33 extend into the buffer grooves and are connected with the bottom end faces of the rectangular transmission blocks 38, the upward cross sections of the buffer grooves are of rectangular structures, so that the rectangular transmission blocks 38 can be adjusted in the buffer grooves in an up-and-down sliding mode, the descaling gap between the two transmission flexible shafts 33 can be adjusted timely according to different fish body types, the transmission flexible shafts 33 can be used for clamping the fish body in real time to conduct descaling operation, but when the first transmission sleeve 36 and the second transmission sleeve 37 rotate, can drive the synchronous rotation of rectangle transmission piece 38, make the synchronous rotation of transmission flexible axle 33 with rectangle transmission piece 38 interconnect, transmission flexible axle 33 slides and cup joints the first spring 39 that is located the inside of dashpot, the fixed cover of cylindric desquamation brush 34 is in the outside of transmission flexible axle 33, cylindric desquamation brush 34 can follow the synchronous rotation of transmission flexible axle 33 and desquamate the operation, utilize first spring 39 to make progress jack-up rectangle transmission piece 38 in real time, can upwards slide transmission flexible axle 33 along the inside of dashpot, make the trend that has real-time to close together between two transmission flexible axles 33 like this, thereby be convenient for press from both sides tight fish body in real time, be convenient for supplementary desquamation mechanism 3 of desquamation carries out effectively desquamation operation.

In order to solve the problem of how to further assist and clamp the fish body, the bottom end of the transmission flexible shaft 33 is rotatably provided with a limit column 312 with an inverted T-shaped structure as a main view cross section, the upper end surface of the support plate 2 is provided with inverted T-shaped chutes 22 which are distributed front and back, the two limit columns 312 are right opposite front and back and are all slidably clamped inside the inverted T-shaped chutes 22, the two limit columns 312 are magnets, opposite side walls have different magnetic poles, and the two limit columns 312 have different magnetic poles, so that the two limit columns 312 have adsorption force which is attached to one side close to each other, and thus, the cylindrical descaling brushes 34 outside the two transmission flexible shafts 33 can be closed in real time, thereby facilitating real-time clamping of the fish body and facilitating effective descaling operation of the auxiliary descaling mechanism 3.

In order to solve the problem of how to position and convey fish through the holding mechanism 4, the holding mechanism 4 comprises a second portal frame 41, a connecting column 43, a rectangular handle 45, a T-shaped ejector rod 46 and an inserting ejector rod 48, the opposite side walls at the bottom end of the second portal frame 41 are respectively provided with a slide block 47, the front side and the rear side of the support plate 2 are respectively provided with a rectangular sliding chute 21 which is in sliding clamping connection with the slide block 47, the opposite side walls inside the second portal frame 41 are respectively provided with a rectangular guiding sliding chute 42, the two axial ends of the connecting column 43 are respectively provided with a pin shaft 44, the pin shafts 44 are in sliding clamping connection with the inside of the rectangular guiding sliding chutes 42, the rectangular handle 45 and the inserting ejector rod 48 are symmetrically arranged on the radial side walls of the connecting column 43, mutually communicated drawing grooves 410 are arranged among the rectangular handle 45, the inserting ejector rod 48 and the connecting column 43, the tip end of the T-shaped ejector rod 46 penetrates through one end of the rectangular handle 45 which is far away from the connecting column 43 and extends to the inside of the drawing grooves 410, the T-shaped ejector rod 46 can be pulled and pulled randomly along the inside of the pulling groove 410, the rectangular handle 45 can be held by bare hands to rotate around the pin shafts 44 at the two axial ends of the connecting column 43 in the rectangular guide sliding groove 42, so that the inserting ejector rod 48 can be lifted conveniently, the tip of the inserting ejector rod 48 can be inserted into a fish mouth, and therefore in the descaling process, the second portal frame 41 is pushed to slide to one side of the descaling mechanism 3 along the rectangular sliding groove 21, and fish to be descaled can be held in an auxiliary mode and conveyed to the descaling mechanism 3 to be descaled;

in addition, the pin shaft 44 can slide up and down in the rectangular guide chute 42, so that the whole height of the whole holding mechanism 4 can be freely adjusted, and the scale removing operation can be conveniently carried out on fishes with different body types.

In order to solve the problem of how to further position and convey fish by the holding mechanism 4, two symmetrically distributed accommodating grooves 49 are formed in the radial side wall of one end of the inserting push rod 48 away from the connecting column 43, the accommodating grooves 49 are communicated with the inside of the drawing groove 410, one end of the inside of the accommodating groove 49 away from the connecting column 43 is hinged with a first support rod 411, the tip of the first support rod 411 is hinged with a second support rod 412, the tip of the second support rod 412 extends to the inside of the drawing groove 410 and is hinged with the side wall of the tip of the T-shaped push rod 46, the T-shaped push rod 46 can be drawn and pulled freely along the inside of the drawing groove 410, so when the T-shaped push rod 46 is extended and pushed out towards the inside of the drawing groove 410, the second support rod 412 can slide along the inside of the accommodating groove 49, and the second support rod 412 is hinged with the first support rod 411, so that the first support rod 411 rotates correspondingly with the adjustment of the second support rod 412, and the first support rod 411 finally form a V-shaped structure, the fish mouth is propped up to prevent the inserting mandril 48 from separating from the fish mouth and influencing the operation of positioning and conveying the fish by the holding mechanism 4;

in order to solve the problem of how to conveniently store the first support rod 411 and the second support rod 412, the sum of the lengths of the first support rod 411 and the second support rod 412 is three-quarters of the length of the interior of the storage groove 49, so that the storage groove 49 is designed to have enough length to store the first support rod 411 and the second support rod 412, and the operation of separating the plug ejector rod 48 from the fish mouth is not influenced, and the fish after being descaled can be conveniently taken down.

Example two

Referring to fig. 1 and fig. 4, a further improvement is made on the basis of embodiment 1:

in order to solve the problem of further enhancing the holding stability of the holding mechanism 4, the outer wall of the T-shaped ejector rod 46 is slidably adjusted to be provided with a second spring 414 connected with the radial side wall of the connecting column 43, the outer wall of the T-shaped ejector rod 46 is slidably sleeved with a wide-mouth positioning cover 413 connected with the second spring 414, and the wide-mouth positioning cover 413 is jacked up to the tip end of the T-shaped ejector rod 46 by the second spring 414 in real time, so that after the inserting ejector rod 48 is inserted into the fish mouth, the fish mouth is wrapped by the wide-mouth positioning cover 413, the holding stability is further enhanced, and the phenomenon that the fish body shakes randomly is avoided.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a horizontal scale removal device, includes processing platform (1), desquamation mechanism (3) and holds mechanism (4), its characterized in that: the processing table is characterized in that a collecting tank for collecting fish scales is formed in the top end of the processing table (1), a supporting plate (2) is arranged between two sides of the top end of the inside of the collecting tank, the descaling mechanism (3) is arranged at the top end of the processing table (1), and the holding mechanism (4) is located on the right side of the descaling mechanism (3) and is in sliding connection with the supporting plate (2);

the descaling mechanism (3) comprises a first portal frame (31), a driving motor (32), a first transmission sleeve (36) and a second transmission sleeve (37), the first portal frame (31) is fixedly installed between the front side and the rear side of the top end of the processing table (1), a transmission cavity (35) is formed in the first portal frame (31), the driving motor (32) is fixedly arranged on the upper end face of the first portal frame (31), the driving motor (32) rotatably extends to the top end in the transmission cavity (35) through a power shaft and is connected with the top end of the first transmission sleeve (36), the bottom end of the first transmission sleeve (36) rotatably penetrates through the transmission cavity (35) and extends to the lower side of the first portal frame (31), the top end of the second transmission sleeve (37) is rotatably inserted into the top end face in the transmission cavity (35), and the bottom end of the second transmission sleeve (37) rotatably penetrates through the transmission cavity (35), and extends to the lower part of the first portal frame (31), the first transmission sleeve (36) is fixedly sleeved with a first transmission fluted disc (310) positioned in the transmission cavity (35), the second transmission sleeve (37) is fixedly sleeved with a second transmission fluted disc (311) positioned in the transmission cavity (35), and the second transmission fluted disc (311) is meshed with the first transmission fluted disc (310),

the descaling mechanism (3) is characterized by further comprising two rectangular transmission blocks (38), two transmission flexible shafts (33) and two cylindrical descaling brushes (34), buffer grooves are formed in the bottoms of the first transmission sleeve (36) and the second transmission sleeve (37) upwards, the upward cross sections of the buffer grooves are of rectangular structures, the rectangular transmission blocks (38) are connected to the inside of the buffer grooves in a sliding and clamping mode, the transmission flexible shafts (33) extend to the inside of the buffer grooves and are connected with the bottom end faces of the rectangular transmission blocks (38), first springs (39) located inside the buffer grooves are connected to the transmission flexible shafts (33) in a sliding and sleeved mode, and the cylindrical descaling brushes (34) are fixedly sleeved on the outside of the transmission flexible shafts (33).

2. The horizontal type fish scaling device as claimed in claim 1, wherein: the bottom of transmission flexible axle (33) all rotates and is equipped with spacing post (312) that the main cross-section of looking is handstand T type structure, handstand T type spout (22) that distribute around the up end of backup pad (2) is seted up, two spacing post (312) are just right around, and equal slip joint is in the inside of handstand T type spout (22), two spacing post (312) are magnet, and relative lateral wall magnetic pole is different.

3. The horizontal type fish scaling device as claimed in claim 1, wherein: the control mechanism (4) comprises a second portal frame (41), a connecting column (43), a rectangular handle (45), a T-shaped ejector rod (46) and a splicing ejector rod (48), slide blocks (47) are arranged on opposite side walls of the bottom end of the second portal frame (41), rectangular sliding grooves (21) which are in sliding clamping connection with the slide blocks (47) are formed in the front side and the rear side of the support plate (2), rectangular guide sliding grooves (42) are formed in opposite side walls inside the second portal frame (41), pin shafts (44) are arranged at two axial ends of the connecting column (43), the pin shafts (44) are in sliding clamping connection with the rectangular guide sliding grooves (42), the rectangular handle (45) and the splicing ejector rod (48) are symmetrically arranged on the radial side wall of the connecting column (43), and mutually communicated drawing grooves (410) are formed among the rectangular handle (45), the splicing ejector rod (48) and the connecting column (43), the tip end of the T-shaped ejector rod (46) penetrates through one end, far away from the connecting column (43), of the rectangular handle (45) in a sliding mode and extends into the drawing groove (410).

4. A horizontal descaling device according to claim 3, wherein: two symmetric distributions have been seted up to the radial lateral wall of one end that spliced pole (43) was kept away from in grafting ejector pin (48), and with the inside groove (49) of accomodating that communicates each other of pull groove (410), the one end of keeping away from spliced pole (43) in the inside of accomodating groove (49) articulates there is first vaulting pole (411), the pointed end of first vaulting pole (411) articulates there is second vaulting pole (412), the pointed end of second vaulting pole (412) extends to the inside of pull groove (410), and articulates with the most advanced lateral wall of T type ejector pin (46).

5. The horizontal type fish scaling device as claimed in claim 4, wherein: the sum of the lengths of the first support rod (411) and the second support rod (412) is three-quarters of the inner length of the accommodating groove (49).

6. A horizontal descaling device according to claim 3, wherein: the outer wall of the T-shaped ejector rod (46) is adjusted in a sliding mode to be provided with a second spring (414) connected with the radial side wall of the connecting column (43), and the outer wall of the T-shaped ejector rod (46) is sleeved with a wide-mouth positioning cover (413) connected with the second spring (414) in a sliding mode.